From 94e0b746df099e81bb68912179bf2fefe911d0fa Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?S=C3=A9bastien=20GLON?= Date: Wed, 25 Oct 2017 21:43:20 +0200 Subject: [PATCH] Add support for google_service_account_key (#472) * Initial support for google service account keys * Add vendor for vault and encryption * Add change for PR comment * Add doc and improvement fo public key management * adding waiter for compatibility with issue google/google-api-go-client#234 * improvement * Add test with pgp_key * Perform doc anf format * remove test if public_key exists * Add link on doc * correct pr --- google/provider.go | 1 + google/resource_google_service_account_key.go | 157 ++ ...esource_google_service_account_key_test.go | 137 ++ google/service_account_waiter.go | 61 + vendor/github.com/golang/snappy/AUTHORS | 15 + vendor/github.com/golang/snappy/CONTRIBUTORS | 37 + vendor/github.com/golang/snappy/LICENSE | 27 + vendor/github.com/golang/snappy/README | 107 + vendor/github.com/golang/snappy/decode.go | 237 +++ .../github.com/golang/snappy/decode_amd64.go | 14 + .../github.com/golang/snappy/decode_amd64.s | 490 +++++ .../github.com/golang/snappy/decode_other.go | 101 + vendor/github.com/golang/snappy/encode.go | 285 +++ .../github.com/golang/snappy/encode_amd64.go | 29 + .../github.com/golang/snappy/encode_amd64.s | 730 +++++++ .../github.com/golang/snappy/encode_other.go | 238 +++ vendor/github.com/golang/snappy/snappy.go | 87 + .../terraform/helper/encryption/encryption.go | 40 + vendor/github.com/hashicorp/vault/LICENSE | 363 ++++ .../vault/helper/compressutil/compress.go | 191 ++ .../hashicorp/vault/helper/jsonutil/json.go | 99 + .../vault/helper/pgpkeys/encrypt_decrypt.go | 117 ++ .../hashicorp/vault/helper/pgpkeys/flag.go | 97 + .../hashicorp/vault/helper/pgpkeys/keybase.go | 116 ++ .../vault/helper/pgpkeys/test_keys.go | 271 +++ vendor/github.com/keybase/go-crypto/LICENSE | 27 + vendor/github.com/keybase/go-crypto/PATENTS | 22 + .../keybase/go-crypto/brainpool/brainpool.go | 134 ++ .../keybase/go-crypto/brainpool/rcurve.go | 83 + .../keybase/go-crypto/cast5/cast5.go | 526 +++++ .../go-crypto/curve25519/const_amd64.s | 20 + .../go-crypto/curve25519/cswap_amd64.s | 88 + .../go-crypto/curve25519/curve25519.go | 841 ++++++++ .../go-crypto/curve25519/curve_impl.go | 113 ++ .../keybase/go-crypto/curve25519/doc.go | 23 + .../go-crypto/curve25519/freeze_amd64.s | 94 + .../go-crypto/curve25519/ladderstep_amd64.s | 1398 +++++++++++++ .../go-crypto/curve25519/mont25519_amd64.go | 240 +++ .../keybase/go-crypto/curve25519/mul_amd64.s | 191 ++ .../go-crypto/curve25519/square_amd64.s | 153 ++ .../keybase/go-crypto/ed25519/ed25519.go | 181 ++ .../ed25519/internal/edwards25519/const.go | 1422 +++++++++++++ .../internal/edwards25519/edwards25519.go | 1771 +++++++++++++++++ .../keybase/go-crypto/openpgp/armor/armor.go | 237 +++ .../keybase/go-crypto/openpgp/armor/encode.go | 160 ++ .../go-crypto/openpgp/canonical_text.go | 59 + .../keybase/go-crypto/openpgp/ecdh/ecdh.go | 282 +++ .../go-crypto/openpgp/elgamal/elgamal.go | 122 ++ .../go-crypto/openpgp/errors/errors.go | 72 + .../keybase/go-crypto/openpgp/keys.go | 902 +++++++++ .../go-crypto/openpgp/packet/compressed.go | 124 ++ .../go-crypto/openpgp/packet/config.go | 98 + .../keybase/go-crypto/openpgp/packet/ecdh.go | 104 + .../go-crypto/openpgp/packet/encrypted_key.go | 226 +++ .../go-crypto/openpgp/packet/literal.go | 89 + .../keybase/go-crypto/openpgp/packet/ocfb.go | 143 ++ .../openpgp/packet/one_pass_signature.go | 74 + .../go-crypto/openpgp/packet/opaque.go | 162 ++ .../go-crypto/openpgp/packet/packet.go | 563 ++++++ .../go-crypto/openpgp/packet/private_key.go | 550 +++++ .../go-crypto/openpgp/packet/public_key.go | 930 +++++++++ .../go-crypto/openpgp/packet/public_key_v3.go | 280 +++ .../go-crypto/openpgp/packet/reader.go | 76 + .../go-crypto/openpgp/packet/signature.go | 882 ++++++++ .../go-crypto/openpgp/packet/signature_v3.go | 146 ++ .../openpgp/packet/symmetric_key_encrypted.go | 158 ++ .../openpgp/packet/symmetrically_encrypted.go | 291 +++ .../go-crypto/openpgp/packet/userattribute.go | 91 + .../go-crypto/openpgp/packet/userid.go | 160 ++ .../keybase/go-crypto/openpgp/patch.sh | 7 + .../keybase/go-crypto/openpgp/read.go | 463 +++++ .../keybase/go-crypto/openpgp/s2k/s2k.go | 326 +++ .../keybase/go-crypto/openpgp/sig-v3.patch | 135 ++ .../keybase/go-crypto/openpgp/write.go | 495 +++++ .../keybase/go-crypto/rsa/pkcs1v15.go | 325 +++ .../github.com/keybase/go-crypto/rsa/pss.go | 297 +++ .../github.com/keybase/go-crypto/rsa/rsa.go | 646 ++++++ vendor/vendor.json | 112 ++ .../google_service_account_key.html.markdown | 85 + website/google.erb | 4 + 80 files changed, 21250 insertions(+) create mode 100644 google/resource_google_service_account_key.go create mode 100644 google/resource_google_service_account_key_test.go create mode 100644 google/service_account_waiter.go create mode 100644 vendor/github.com/golang/snappy/AUTHORS create mode 100644 vendor/github.com/golang/snappy/CONTRIBUTORS create mode 100644 vendor/github.com/golang/snappy/LICENSE create mode 100644 vendor/github.com/golang/snappy/README create mode 100644 vendor/github.com/golang/snappy/decode.go create mode 100644 vendor/github.com/golang/snappy/decode_amd64.go create mode 100644 vendor/github.com/golang/snappy/decode_amd64.s create mode 100644 vendor/github.com/golang/snappy/decode_other.go create mode 100644 vendor/github.com/golang/snappy/encode.go create mode 100644 vendor/github.com/golang/snappy/encode_amd64.go create mode 100644 vendor/github.com/golang/snappy/encode_amd64.s create mode 100644 vendor/github.com/golang/snappy/encode_other.go create mode 100644 vendor/github.com/golang/snappy/snappy.go create mode 100644 vendor/github.com/hashicorp/terraform/helper/encryption/encryption.go create mode 100644 vendor/github.com/hashicorp/vault/LICENSE create mode 100644 vendor/github.com/hashicorp/vault/helper/compressutil/compress.go create mode 100644 vendor/github.com/hashicorp/vault/helper/jsonutil/json.go create mode 100644 vendor/github.com/hashicorp/vault/helper/pgpkeys/encrypt_decrypt.go create mode 100644 vendor/github.com/hashicorp/vault/helper/pgpkeys/flag.go create mode 100644 vendor/github.com/hashicorp/vault/helper/pgpkeys/keybase.go create mode 100644 vendor/github.com/hashicorp/vault/helper/pgpkeys/test_keys.go create mode 100644 vendor/github.com/keybase/go-crypto/LICENSE create mode 100644 vendor/github.com/keybase/go-crypto/PATENTS create mode 100644 vendor/github.com/keybase/go-crypto/brainpool/brainpool.go create mode 100644 vendor/github.com/keybase/go-crypto/brainpool/rcurve.go create mode 100644 vendor/github.com/keybase/go-crypto/cast5/cast5.go create mode 100644 vendor/github.com/keybase/go-crypto/curve25519/const_amd64.s create mode 100644 vendor/github.com/keybase/go-crypto/curve25519/cswap_amd64.s create mode 100644 vendor/github.com/keybase/go-crypto/curve25519/curve25519.go create mode 100644 vendor/github.com/keybase/go-crypto/curve25519/curve_impl.go create mode 100644 vendor/github.com/keybase/go-crypto/curve25519/doc.go create mode 100644 vendor/github.com/keybase/go-crypto/curve25519/freeze_amd64.s create mode 100644 vendor/github.com/keybase/go-crypto/curve25519/ladderstep_amd64.s create mode 100644 vendor/github.com/keybase/go-crypto/curve25519/mont25519_amd64.go create mode 100644 vendor/github.com/keybase/go-crypto/curve25519/mul_amd64.s create mode 100644 vendor/github.com/keybase/go-crypto/curve25519/square_amd64.s create mode 100644 vendor/github.com/keybase/go-crypto/ed25519/ed25519.go create mode 100644 vendor/github.com/keybase/go-crypto/ed25519/internal/edwards25519/const.go create mode 100644 vendor/github.com/keybase/go-crypto/ed25519/internal/edwards25519/edwards25519.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/armor/armor.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/armor/encode.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/canonical_text.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/ecdh/ecdh.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/elgamal/elgamal.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/errors/errors.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/keys.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/compressed.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/config.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/ecdh.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/encrypted_key.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/literal.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/ocfb.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/one_pass_signature.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/opaque.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/packet.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/private_key.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/public_key.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/public_key_v3.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/reader.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/signature.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/signature_v3.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/symmetric_key_encrypted.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/symmetrically_encrypted.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/userattribute.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/packet/userid.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/patch.sh create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/read.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/s2k/s2k.go create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/sig-v3.patch create mode 100644 vendor/github.com/keybase/go-crypto/openpgp/write.go create mode 100644 vendor/github.com/keybase/go-crypto/rsa/pkcs1v15.go create mode 100644 vendor/github.com/keybase/go-crypto/rsa/pss.go create mode 100644 vendor/github.com/keybase/go-crypto/rsa/rsa.go create mode 100644 website/docs/r/google_service_account_key.html.markdown diff --git a/google/provider.go b/google/provider.go index e8943ec7..283a7b57 100644 --- a/google/provider.go +++ b/google/provider.go @@ -133,6 +133,7 @@ func Provider() terraform.ResourceProvider { "google_runtimeconfig_config": resourceRuntimeconfigConfig(), "google_runtimeconfig_variable": resourceRuntimeconfigVariable(), "google_service_account": resourceGoogleServiceAccount(), + "google_service_account_key": resourceGoogleServiceAccountKey(), "google_storage_bucket": resourceStorageBucket(), "google_storage_bucket_acl": resourceStorageBucketAcl(), "google_storage_bucket_object": resourceStorageBucketObject(), diff --git a/google/resource_google_service_account_key.go b/google/resource_google_service_account_key.go new file mode 100644 index 00000000..303bc413 --- /dev/null +++ b/google/resource_google_service_account_key.go @@ -0,0 +1,157 @@ +package google + +import ( + "fmt" + + "github.com/hashicorp/terraform/helper/encryption" + "github.com/hashicorp/terraform/helper/schema" + "github.com/hashicorp/terraform/helper/validation" + "google.golang.org/api/iam/v1" +) + +func resourceGoogleServiceAccountKey() *schema.Resource { + return &schema.Resource{ + Create: resourceGoogleServiceAccountKeyCreate, + Read: resourceGoogleServiceAccountKeyRead, + Delete: resourceGoogleServiceAccountKeyDelete, + Schema: map[string]*schema.Schema{ + // Required + "service_account_id": &schema.Schema{ + Type: schema.TypeString, + Required: true, + ForceNew: true, + }, + // Optional + "key_algorithm": &schema.Schema{ + Type: schema.TypeString, + Default: "KEY_ALG_RSA_2048", + Optional: true, + ForceNew: true, + ValidateFunc: validation.StringInSlice([]string{"KEY_ALG_UNSPECIFIED", "KEY_ALG_RSA_1024", "KEY_ALG_RSA_2048"}, false), + }, + "pgp_key": { + Type: schema.TypeString, + Optional: true, + ForceNew: true, + }, + "private_key_type": &schema.Schema{ + Type: schema.TypeString, + Default: "TYPE_GOOGLE_CREDENTIALS_FILE", + Optional: true, + ForceNew: true, + ValidateFunc: validation.StringInSlice([]string{"TYPE_UNSPECIFIED", "TYPE_PKCS12_FILE", "TYPE_GOOGLE_CREDENTIALS_FILE"}, false), + }, + "public_key_type": &schema.Schema{ + Type: schema.TypeString, + Default: "X509_PEM", + Optional: true, + ForceNew: true, + ValidateFunc: validation.StringInSlice([]string{"TYPE_NONE", "TYPE_X509_PEM_FILE", "TYPE_RAW_PUBLIC_KEY"}, false), + }, + // Computed + "name": &schema.Schema{ + Type: schema.TypeString, + Computed: true, + ForceNew: true, + }, + "public_key": { + Type: schema.TypeString, + Computed: true, + ForceNew: true, + }, + "private_key": &schema.Schema{ + Type: schema.TypeString, + Computed: true, + Sensitive: true, + }, + "valid_after": &schema.Schema{ + Type: schema.TypeString, + Computed: true, + }, + "valid_before": &schema.Schema{ + Type: schema.TypeString, + Computed: true, + }, + "private_key_encrypted": { + Type: schema.TypeString, + Computed: true, + }, + "private_key_fingerprint": { + Type: schema.TypeString, + Computed: true, + }, + }, + } +} + +func resourceGoogleServiceAccountKeyCreate(d *schema.ResourceData, meta interface{}) error { + config := meta.(*Config) + + serviceAccount := d.Get("service_account_id").(string) + + r := &iam.CreateServiceAccountKeyRequest{ + KeyAlgorithm: d.Get("key_algorithm").(string), + PrivateKeyType: d.Get("private_key_type").(string), + } + + sak, err := config.clientIAM.Projects.ServiceAccounts.Keys.Create(serviceAccount, r).Do() + if err != nil { + return fmt.Errorf("Error creating service account key: %s", err) + } + + d.SetId(sak.Name) + // Data only available on create. + d.Set("valid_after", sak.ValidAfterTime) + d.Set("valid_before", sak.ValidBeforeTime) + if v, ok := d.GetOk("pgp_key"); ok { + encryptionKey, err := encryption.RetrieveGPGKey(v.(string)) + if err != nil { + return err + } + + fingerprint, encrypted, err := encryption.EncryptValue(encryptionKey, sak.PrivateKeyData, "Google Service Account Key") + if err != nil { + return err + } + + d.Set("private_key_encrypted", encrypted) + d.Set("private_key_fingerprint", fingerprint) + } else { + d.Set("private_key", sak.PrivateKeyData) + } + + err = serviceAccountKeyWaitTime(config.clientIAM.Projects.ServiceAccounts.Keys, d.Id(), d.Get("public_key_type").(string), "Creating Service account key", 4) + if err != nil { + return err + } + return resourceGoogleServiceAccountKeyRead(d, meta) +} + +func resourceGoogleServiceAccountKeyRead(d *schema.ResourceData, meta interface{}) error { + config := meta.(*Config) + + publicKeyType := d.Get("public_key_type").(string) + + // Confirm the service account key exists + sak, err := config.clientIAM.Projects.ServiceAccounts.Keys.Get(d.Id()).PublicKeyType(publicKeyType).Do() + if err != nil { + return handleNotFoundError(err, d, fmt.Sprintf("Service Account Key %q", d.Id())) + } + + d.Set("name", sak.Name) + d.Set("key_algorithm", sak.KeyAlgorithm) + d.Set("public_key", sak.PublicKeyData) + return nil +} + +func resourceGoogleServiceAccountKeyDelete(d *schema.ResourceData, meta interface{}) error { + config := meta.(*Config) + + _, err := config.clientIAM.Projects.ServiceAccounts.Keys.Delete(d.Id()).Do() + if err != nil { + return err + } + + d.SetId("") + return nil +} diff --git a/google/resource_google_service_account_key_test.go b/google/resource_google_service_account_key_test.go new file mode 100644 index 00000000..dca69a0c --- /dev/null +++ b/google/resource_google_service_account_key_test.go @@ -0,0 +1,137 @@ +package google + +import ( + "fmt" + "testing" + + "github.com/hashicorp/terraform/helper/acctest" + "github.com/hashicorp/terraform/helper/resource" + "github.com/hashicorp/terraform/terraform" +) + +// Test that a service account key can be created and destroyed +func TestAccGoogleServiceAccountKey_basic(t *testing.T) { + t.Parallel() + + resourceName := "google_service_account_key.acceptance" + accountID := "a" + acctest.RandString(10) + displayName := "Terraform Test" + resource.Test(t, resource.TestCase{ + PreCheck: func() { testAccPreCheck(t) }, + Providers: testAccProviders, + Steps: []resource.TestStep{ + resource.TestStep{ + Config: testAccGoogleServiceAccountKey(accountID, displayName), + Check: resource.ComposeTestCheckFunc( + testAccCheckGoogleServiceAccountKeyExists(resourceName), + resource.TestCheckResourceAttrSet(resourceName, "public_key"), + resource.TestCheckResourceAttrSet(resourceName, "valid_after"), + resource.TestCheckResourceAttrSet(resourceName, "valid_before"), + resource.TestCheckResourceAttrSet(resourceName, "private_key"), + ), + }, + }, + }) +} + +func TestAccGoogleServiceAccountKey_pgp(t *testing.T) { + t.Parallel() + resourceName := "google_service_account_key.acceptance" + accountID := "a" + acctest.RandString(10) + displayName := "Terraform Test" + resource.Test(t, resource.TestCase{ + PreCheck: func() { testAccPreCheck(t) }, + Providers: testAccProviders, + Steps: []resource.TestStep{ + resource.TestStep{ + Config: testAccGoogleServiceAccountKey_pgp(accountID, displayName, testKeyPairPubKey1), + Check: resource.ComposeTestCheckFunc( + testAccCheckGoogleServiceAccountKeyExists(resourceName), + resource.TestCheckResourceAttrSet(resourceName, "public_key"), + resource.TestCheckResourceAttrSet(resourceName, "private_key_encrypted"), + resource.TestCheckResourceAttrSet(resourceName, "private_key_fingerprint"), + ), + }, + }, + }) +} + +func testAccCheckGoogleServiceAccountKeyExists(r string) resource.TestCheckFunc { + return func(s *terraform.State) error { + + rs, ok := s.RootModule().Resources[r] + if !ok { + return fmt.Errorf("Not found: %s", r) + } + + if rs.Primary.ID == "" { + return fmt.Errorf("No ID is set") + } + config := testAccProvider.Meta().(*Config) + + _, err := config.clientIAM.Projects.ServiceAccounts.Keys.Get(rs.Primary.ID).Do() + if err != nil { + return err + } + + return nil + } +} + +func testAccGoogleServiceAccountKey(account, name string) string { + return fmt.Sprintf(` +resource "google_service_account" "acceptance" { + account_id = "%s" + display_name = "%s" +} + +resource "google_service_account_key" "acceptance" { + service_account_id = "${google_service_account.acceptance.id}" + public_key_type = "TYPE_X509_PEM_FILE" +} +`, account, name) +} + +func testAccGoogleServiceAccountKey_pgp(account, name string, key string) string { + return fmt.Sprintf(` +resource "google_service_account" "acceptance" { + account_id = "%s" + display_name = "%s" +} + +resource "google_service_account_key" "acceptance" { + service_account_id = "${google_service_account.acceptance.id}" + public_key_type = "TYPE_X509_PEM_FILE" + pgp_key = < +# The email address is not required for organizations. + +# Please keep the list sorted. + +Damian Gryski +Google Inc. +Jan Mercl <0xjnml@gmail.com> +Rodolfo Carvalho +Sebastien Binet diff --git a/vendor/github.com/golang/snappy/CONTRIBUTORS b/vendor/github.com/golang/snappy/CONTRIBUTORS new file mode 100644 index 00000000..931ae316 --- /dev/null +++ b/vendor/github.com/golang/snappy/CONTRIBUTORS @@ -0,0 +1,37 @@ +# This is the official list of people who can contribute +# (and typically have contributed) code to the Snappy-Go repository. +# The AUTHORS file lists the copyright holders; this file +# lists people. For example, Google employees are listed here +# but not in AUTHORS, because Google holds the copyright. +# +# The submission process automatically checks to make sure +# that people submitting code are listed in this file (by email address). +# +# Names should be added to this file only after verifying that +# the individual or the individual's organization has agreed to +# the appropriate Contributor License Agreement, found here: +# +# http://code.google.com/legal/individual-cla-v1.0.html +# http://code.google.com/legal/corporate-cla-v1.0.html +# +# The agreement for individuals can be filled out on the web. +# +# When adding J Random Contributor's name to this file, +# either J's name or J's organization's name should be +# added to the AUTHORS file, depending on whether the +# individual or corporate CLA was used. + +# Names should be added to this file like so: +# Name + +# Please keep the list sorted. + +Damian Gryski +Jan Mercl <0xjnml@gmail.com> +Kai Backman +Marc-Antoine Ruel +Nigel Tao +Rob Pike +Rodolfo Carvalho +Russ Cox +Sebastien Binet diff --git a/vendor/github.com/golang/snappy/LICENSE b/vendor/github.com/golang/snappy/LICENSE new file mode 100644 index 00000000..6050c10f --- /dev/null +++ b/vendor/github.com/golang/snappy/LICENSE @@ -0,0 +1,27 @@ +Copyright (c) 2011 The Snappy-Go Authors. All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are +met: + + * Redistributions of source code must retain the above copyright +notice, this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above +copyright notice, this list of conditions and the following disclaimer +in the documentation and/or other materials provided with the +distribution. + * Neither the name of Google Inc. nor the names of its +contributors may be used to endorse or promote products derived from +this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. diff --git a/vendor/github.com/golang/snappy/README b/vendor/github.com/golang/snappy/README new file mode 100644 index 00000000..cea12879 --- /dev/null +++ b/vendor/github.com/golang/snappy/README @@ -0,0 +1,107 @@ +The Snappy compression format in the Go programming language. + +To download and install from source: +$ go get github.com/golang/snappy + +Unless otherwise noted, the Snappy-Go source files are distributed +under the BSD-style license found in the LICENSE file. + + + +Benchmarks. + +The golang/snappy benchmarks include compressing (Z) and decompressing (U) ten +or so files, the same set used by the C++ Snappy code (github.com/google/snappy +and note the "google", not "golang"). On an "Intel(R) Core(TM) i7-3770 CPU @ +3.40GHz", Go's GOARCH=amd64 numbers as of 2016-05-29: + +"go test -test.bench=." + +_UFlat0-8 2.19GB/s ± 0% html +_UFlat1-8 1.41GB/s ± 0% urls +_UFlat2-8 23.5GB/s ± 2% jpg +_UFlat3-8 1.91GB/s ± 0% jpg_200 +_UFlat4-8 14.0GB/s ± 1% pdf +_UFlat5-8 1.97GB/s ± 0% html4 +_UFlat6-8 814MB/s ± 0% txt1 +_UFlat7-8 785MB/s ± 0% txt2 +_UFlat8-8 857MB/s ± 0% txt3 +_UFlat9-8 719MB/s ± 1% txt4 +_UFlat10-8 2.84GB/s ± 0% pb +_UFlat11-8 1.05GB/s ± 0% gaviota + +_ZFlat0-8 1.04GB/s ± 0% html +_ZFlat1-8 534MB/s ± 0% urls +_ZFlat2-8 15.7GB/s ± 1% jpg +_ZFlat3-8 740MB/s ± 3% jpg_200 +_ZFlat4-8 9.20GB/s ± 1% pdf +_ZFlat5-8 991MB/s ± 0% html4 +_ZFlat6-8 379MB/s ± 0% txt1 +_ZFlat7-8 352MB/s ± 0% txt2 +_ZFlat8-8 396MB/s ± 1% txt3 +_ZFlat9-8 327MB/s ± 1% txt4 +_ZFlat10-8 1.33GB/s ± 1% pb +_ZFlat11-8 605MB/s ± 1% gaviota + + + +"go test -test.bench=. -tags=noasm" + +_UFlat0-8 621MB/s ± 2% html +_UFlat1-8 494MB/s ± 1% urls +_UFlat2-8 23.2GB/s ± 1% jpg +_UFlat3-8 1.12GB/s ± 1% jpg_200 +_UFlat4-8 4.35GB/s ± 1% pdf +_UFlat5-8 609MB/s ± 0% html4 +_UFlat6-8 296MB/s ± 0% txt1 +_UFlat7-8 288MB/s ± 0% txt2 +_UFlat8-8 309MB/s ± 1% txt3 +_UFlat9-8 280MB/s ± 1% txt4 +_UFlat10-8 753MB/s ± 0% pb +_UFlat11-8 400MB/s ± 0% gaviota + +_ZFlat0-8 409MB/s ± 1% html +_ZFlat1-8 250MB/s ± 1% urls +_ZFlat2-8 12.3GB/s ± 1% jpg +_ZFlat3-8 132MB/s ± 0% jpg_200 +_ZFlat4-8 2.92GB/s ± 0% pdf +_ZFlat5-8 405MB/s ± 1% html4 +_ZFlat6-8 179MB/s ± 1% txt1 +_ZFlat7-8 170MB/s ± 1% txt2 +_ZFlat8-8 189MB/s ± 1% txt3 +_ZFlat9-8 164MB/s ± 1% txt4 +_ZFlat10-8 479MB/s ± 1% pb +_ZFlat11-8 270MB/s ± 1% gaviota + + + +For comparison (Go's encoded output is byte-for-byte identical to C++'s), here +are the numbers from C++ Snappy's + +make CXXFLAGS="-O2 -DNDEBUG -g" clean snappy_unittest.log && cat snappy_unittest.log + +BM_UFlat/0 2.4GB/s html +BM_UFlat/1 1.4GB/s urls +BM_UFlat/2 21.8GB/s jpg +BM_UFlat/3 1.5GB/s jpg_200 +BM_UFlat/4 13.3GB/s pdf +BM_UFlat/5 2.1GB/s html4 +BM_UFlat/6 1.0GB/s txt1 +BM_UFlat/7 959.4MB/s txt2 +BM_UFlat/8 1.0GB/s txt3 +BM_UFlat/9 864.5MB/s txt4 +BM_UFlat/10 2.9GB/s pb +BM_UFlat/11 1.2GB/s gaviota + +BM_ZFlat/0 944.3MB/s html (22.31 %) +BM_ZFlat/1 501.6MB/s urls (47.78 %) +BM_ZFlat/2 14.3GB/s jpg (99.95 %) +BM_ZFlat/3 538.3MB/s jpg_200 (73.00 %) +BM_ZFlat/4 8.3GB/s pdf (83.30 %) +BM_ZFlat/5 903.5MB/s html4 (22.52 %) +BM_ZFlat/6 336.0MB/s txt1 (57.88 %) +BM_ZFlat/7 312.3MB/s txt2 (61.91 %) +BM_ZFlat/8 353.1MB/s txt3 (54.99 %) +BM_ZFlat/9 289.9MB/s txt4 (66.26 %) +BM_ZFlat/10 1.2GB/s pb (19.68 %) +BM_ZFlat/11 527.4MB/s gaviota (37.72 %) diff --git a/vendor/github.com/golang/snappy/decode.go b/vendor/github.com/golang/snappy/decode.go new file mode 100644 index 00000000..72efb035 --- /dev/null +++ b/vendor/github.com/golang/snappy/decode.go @@ -0,0 +1,237 @@ +// Copyright 2011 The Snappy-Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package snappy + +import ( + "encoding/binary" + "errors" + "io" +) + +var ( + // ErrCorrupt reports that the input is invalid. + ErrCorrupt = errors.New("snappy: corrupt input") + // ErrTooLarge reports that the uncompressed length is too large. + ErrTooLarge = errors.New("snappy: decoded block is too large") + // ErrUnsupported reports that the input isn't supported. + ErrUnsupported = errors.New("snappy: unsupported input") + + errUnsupportedLiteralLength = errors.New("snappy: unsupported literal length") +) + +// DecodedLen returns the length of the decoded block. +func DecodedLen(src []byte) (int, error) { + v, _, err := decodedLen(src) + return v, err +} + +// decodedLen returns the length of the decoded block and the number of bytes +// that the length header occupied. +func decodedLen(src []byte) (blockLen, headerLen int, err error) { + v, n := binary.Uvarint(src) + if n <= 0 || v > 0xffffffff { + return 0, 0, ErrCorrupt + } + + const wordSize = 32 << (^uint(0) >> 32 & 1) + if wordSize == 32 && v > 0x7fffffff { + return 0, 0, ErrTooLarge + } + return int(v), n, nil +} + +const ( + decodeErrCodeCorrupt = 1 + decodeErrCodeUnsupportedLiteralLength = 2 +) + +// Decode returns the decoded form of src. The returned slice may be a sub- +// slice of dst if dst was large enough to hold the entire decoded block. +// Otherwise, a newly allocated slice will be returned. +// +// The dst and src must not overlap. It is valid to pass a nil dst. +func Decode(dst, src []byte) ([]byte, error) { + dLen, s, err := decodedLen(src) + if err != nil { + return nil, err + } + if dLen <= len(dst) { + dst = dst[:dLen] + } else { + dst = make([]byte, dLen) + } + switch decode(dst, src[s:]) { + case 0: + return dst, nil + case decodeErrCodeUnsupportedLiteralLength: + return nil, errUnsupportedLiteralLength + } + return nil, ErrCorrupt +} + +// NewReader returns a new Reader that decompresses from r, using the framing +// format described at +// https://github.com/google/snappy/blob/master/framing_format.txt +func NewReader(r io.Reader) *Reader { + return &Reader{ + r: r, + decoded: make([]byte, maxBlockSize), + buf: make([]byte, maxEncodedLenOfMaxBlockSize+checksumSize), + } +} + +// Reader is an io.Reader that can read Snappy-compressed bytes. +type Reader struct { + r io.Reader + err error + decoded []byte + buf []byte + // decoded[i:j] contains decoded bytes that have not yet been passed on. + i, j int + readHeader bool +} + +// Reset discards any buffered data, resets all state, and switches the Snappy +// reader to read from r. This permits reusing a Reader rather than allocating +// a new one. +func (r *Reader) Reset(reader io.Reader) { + r.r = reader + r.err = nil + r.i = 0 + r.j = 0 + r.readHeader = false +} + +func (r *Reader) readFull(p []byte, allowEOF bool) (ok bool) { + if _, r.err = io.ReadFull(r.r, p); r.err != nil { + if r.err == io.ErrUnexpectedEOF || (r.err == io.EOF && !allowEOF) { + r.err = ErrCorrupt + } + return false + } + return true +} + +// Read satisfies the io.Reader interface. +func (r *Reader) Read(p []byte) (int, error) { + if r.err != nil { + return 0, r.err + } + for { + if r.i < r.j { + n := copy(p, r.decoded[r.i:r.j]) + r.i += n + return n, nil + } + if !r.readFull(r.buf[:4], true) { + return 0, r.err + } + chunkType := r.buf[0] + if !r.readHeader { + if chunkType != chunkTypeStreamIdentifier { + r.err = ErrCorrupt + return 0, r.err + } + r.readHeader = true + } + chunkLen := int(r.buf[1]) | int(r.buf[2])<<8 | int(r.buf[3])<<16 + if chunkLen > len(r.buf) { + r.err = ErrUnsupported + return 0, r.err + } + + // The chunk types are specified at + // https://github.com/google/snappy/blob/master/framing_format.txt + switch chunkType { + case chunkTypeCompressedData: + // Section 4.2. Compressed data (chunk type 0x00). + if chunkLen < checksumSize { + r.err = ErrCorrupt + return 0, r.err + } + buf := r.buf[:chunkLen] + if !r.readFull(buf, false) { + return 0, r.err + } + checksum := uint32(buf[0]) | uint32(buf[1])<<8 | uint32(buf[2])<<16 | uint32(buf[3])<<24 + buf = buf[checksumSize:] + + n, err := DecodedLen(buf) + if err != nil { + r.err = err + return 0, r.err + } + if n > len(r.decoded) { + r.err = ErrCorrupt + return 0, r.err + } + if _, err := Decode(r.decoded, buf); err != nil { + r.err = err + return 0, r.err + } + if crc(r.decoded[:n]) != checksum { + r.err = ErrCorrupt + return 0, r.err + } + r.i, r.j = 0, n + continue + + case chunkTypeUncompressedData: + // Section 4.3. Uncompressed data (chunk type 0x01). + if chunkLen < checksumSize { + r.err = ErrCorrupt + return 0, r.err + } + buf := r.buf[:checksumSize] + if !r.readFull(buf, false) { + return 0, r.err + } + checksum := uint32(buf[0]) | uint32(buf[1])<<8 | uint32(buf[2])<<16 | uint32(buf[3])<<24 + // Read directly into r.decoded instead of via r.buf. + n := chunkLen - checksumSize + if n > len(r.decoded) { + r.err = ErrCorrupt + return 0, r.err + } + if !r.readFull(r.decoded[:n], false) { + return 0, r.err + } + if crc(r.decoded[:n]) != checksum { + r.err = ErrCorrupt + return 0, r.err + } + r.i, r.j = 0, n + continue + + case chunkTypeStreamIdentifier: + // Section 4.1. Stream identifier (chunk type 0xff). + if chunkLen != len(magicBody) { + r.err = ErrCorrupt + return 0, r.err + } + if !r.readFull(r.buf[:len(magicBody)], false) { + return 0, r.err + } + for i := 0; i < len(magicBody); i++ { + if r.buf[i] != magicBody[i] { + r.err = ErrCorrupt + return 0, r.err + } + } + continue + } + + if chunkType <= 0x7f { + // Section 4.5. Reserved unskippable chunks (chunk types 0x02-0x7f). + r.err = ErrUnsupported + return 0, r.err + } + // Section 4.4 Padding (chunk type 0xfe). + // Section 4.6. Reserved skippable chunks (chunk types 0x80-0xfd). + if !r.readFull(r.buf[:chunkLen], false) { + return 0, r.err + } + } +} diff --git a/vendor/github.com/golang/snappy/decode_amd64.go b/vendor/github.com/golang/snappy/decode_amd64.go new file mode 100644 index 00000000..fcd192b8 --- /dev/null +++ b/vendor/github.com/golang/snappy/decode_amd64.go @@ -0,0 +1,14 @@ +// Copyright 2016 The Snappy-Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// +build !appengine +// +build gc +// +build !noasm + +package snappy + +// decode has the same semantics as in decode_other.go. +// +//go:noescape +func decode(dst, src []byte) int diff --git a/vendor/github.com/golang/snappy/decode_amd64.s b/vendor/github.com/golang/snappy/decode_amd64.s new file mode 100644 index 00000000..e6179f65 --- /dev/null +++ b/vendor/github.com/golang/snappy/decode_amd64.s @@ -0,0 +1,490 @@ +// Copyright 2016 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// +build !appengine +// +build gc +// +build !noasm + +#include "textflag.h" + +// The asm code generally follows the pure Go code in decode_other.go, except +// where marked with a "!!!". + +// func decode(dst, src []byte) int +// +// All local variables fit into registers. The non-zero stack size is only to +// spill registers and push args when issuing a CALL. The register allocation: +// - AX scratch +// - BX scratch +// - CX length or x +// - DX offset +// - SI &src[s] +// - DI &dst[d] +// + R8 dst_base +// + R9 dst_len +// + R10 dst_base + dst_len +// + R11 src_base +// + R12 src_len +// + R13 src_base + src_len +// - R14 used by doCopy +// - R15 used by doCopy +// +// The registers R8-R13 (marked with a "+") are set at the start of the +// function, and after a CALL returns, and are not otherwise modified. +// +// The d variable is implicitly DI - R8, and len(dst)-d is R10 - DI. +// The s variable is implicitly SI - R11, and len(src)-s is R13 - SI. +TEXT ·decode(SB), NOSPLIT, $48-56 + // Initialize SI, DI and R8-R13. + MOVQ dst_base+0(FP), R8 + MOVQ dst_len+8(FP), R9 + MOVQ R8, DI + MOVQ R8, R10 + ADDQ R9, R10 + MOVQ src_base+24(FP), R11 + MOVQ src_len+32(FP), R12 + MOVQ R11, SI + MOVQ R11, R13 + ADDQ R12, R13 + +loop: + // for s < len(src) + CMPQ SI, R13 + JEQ end + + // CX = uint32(src[s]) + // + // switch src[s] & 0x03 + MOVBLZX (SI), CX + MOVL CX, BX + ANDL $3, BX + CMPL BX, $1 + JAE tagCopy + + // ---------------------------------------- + // The code below handles literal tags. + + // case tagLiteral: + // x := uint32(src[s] >> 2) + // switch + SHRL $2, CX + CMPL CX, $60 + JAE tagLit60Plus + + // case x < 60: + // s++ + INCQ SI + +doLit: + // This is the end of the inner "switch", when we have a literal tag. + // + // We assume that CX == x and x fits in a uint32, where x is the variable + // used in the pure Go decode_other.go code. + + // length = int(x) + 1 + // + // Unlike the pure Go code, we don't need to check if length <= 0 because + // CX can hold 64 bits, so the increment cannot overflow. + INCQ CX + + // Prepare to check if copying length bytes will run past the end of dst or + // src. + // + // AX = len(dst) - d + // BX = len(src) - s + MOVQ R10, AX + SUBQ DI, AX + MOVQ R13, BX + SUBQ SI, BX + + // !!! Try a faster technique for short (16 or fewer bytes) copies. + // + // if length > 16 || len(dst)-d < 16 || len(src)-s < 16 { + // goto callMemmove // Fall back on calling runtime·memmove. + // } + // + // The C++ snappy code calls this TryFastAppend. It also checks len(src)-s + // against 21 instead of 16, because it cannot assume that all of its input + // is contiguous in memory and so it needs to leave enough source bytes to + // read the next tag without refilling buffers, but Go's Decode assumes + // contiguousness (the src argument is a []byte). + CMPQ CX, $16 + JGT callMemmove + CMPQ AX, $16 + JLT callMemmove + CMPQ BX, $16 + JLT callMemmove + + // !!! Implement the copy from src to dst as a 16-byte load and store. + // (Decode's documentation says that dst and src must not overlap.) + // + // This always copies 16 bytes, instead of only length bytes, but that's + // OK. If the input is a valid Snappy encoding then subsequent iterations + // will fix up the overrun. Otherwise, Decode returns a nil []byte (and a + // non-nil error), so the overrun will be ignored. + // + // Note that on amd64, it is legal and cheap to issue unaligned 8-byte or + // 16-byte loads and stores. This technique probably wouldn't be as + // effective on architectures that are fussier about alignment. + MOVOU 0(SI), X0 + MOVOU X0, 0(DI) + + // d += length + // s += length + ADDQ CX, DI + ADDQ CX, SI + JMP loop + +callMemmove: + // if length > len(dst)-d || length > len(src)-s { etc } + CMPQ CX, AX + JGT errCorrupt + CMPQ CX, BX + JGT errCorrupt + + // copy(dst[d:], src[s:s+length]) + // + // This means calling runtime·memmove(&dst[d], &src[s], length), so we push + // DI, SI and CX as arguments. Coincidentally, we also need to spill those + // three registers to the stack, to save local variables across the CALL. + MOVQ DI, 0(SP) + MOVQ SI, 8(SP) + MOVQ CX, 16(SP) + MOVQ DI, 24(SP) + MOVQ SI, 32(SP) + MOVQ CX, 40(SP) + CALL runtime·memmove(SB) + + // Restore local variables: unspill registers from the stack and + // re-calculate R8-R13. + MOVQ 24(SP), DI + MOVQ 32(SP), SI + MOVQ 40(SP), CX + MOVQ dst_base+0(FP), R8 + MOVQ dst_len+8(FP), R9 + MOVQ R8, R10 + ADDQ R9, R10 + MOVQ src_base+24(FP), R11 + MOVQ src_len+32(FP), R12 + MOVQ R11, R13 + ADDQ R12, R13 + + // d += length + // s += length + ADDQ CX, DI + ADDQ CX, SI + JMP loop + +tagLit60Plus: + // !!! This fragment does the + // + // s += x - 58; if uint(s) > uint(len(src)) { etc } + // + // checks. In the asm version, we code it once instead of once per switch case. + ADDQ CX, SI + SUBQ $58, SI + MOVQ SI, BX + SUBQ R11, BX + CMPQ BX, R12 + JA errCorrupt + + // case x == 60: + CMPL CX, $61 + JEQ tagLit61 + JA tagLit62Plus + + // x = uint32(src[s-1]) + MOVBLZX -1(SI), CX + JMP doLit + +tagLit61: + // case x == 61: + // x = uint32(src[s-2]) | uint32(src[s-1])<<8 + MOVWLZX -2(SI), CX + JMP doLit + +tagLit62Plus: + CMPL CX, $62 + JA tagLit63 + + // case x == 62: + // x = uint32(src[s-3]) | uint32(src[s-2])<<8 | uint32(src[s-1])<<16 + MOVWLZX -3(SI), CX + MOVBLZX -1(SI), BX + SHLL $16, BX + ORL BX, CX + JMP doLit + +tagLit63: + // case x == 63: + // x = uint32(src[s-4]) | uint32(src[s-3])<<8 | uint32(src[s-2])<<16 | uint32(src[s-1])<<24 + MOVL -4(SI), CX + JMP doLit + +// The code above handles literal tags. +// ---------------------------------------- +// The code below handles copy tags. + +tagCopy4: + // case tagCopy4: + // s += 5 + ADDQ $5, SI + + // if uint(s) > uint(len(src)) { etc } + MOVQ SI, BX + SUBQ R11, BX + CMPQ BX, R12 + JA errCorrupt + + // length = 1 + int(src[s-5])>>2 + SHRQ $2, CX + INCQ CX + + // offset = int(uint32(src[s-4]) | uint32(src[s-3])<<8 | uint32(src[s-2])<<16 | uint32(src[s-1])<<24) + MOVLQZX -4(SI), DX + JMP doCopy + +tagCopy2: + // case tagCopy2: + // s += 3 + ADDQ $3, SI + + // if uint(s) > uint(len(src)) { etc } + MOVQ SI, BX + SUBQ R11, BX + CMPQ BX, R12 + JA errCorrupt + + // length = 1 + int(src[s-3])>>2 + SHRQ $2, CX + INCQ CX + + // offset = int(uint32(src[s-2]) | uint32(src[s-1])<<8) + MOVWQZX -2(SI), DX + JMP doCopy + +tagCopy: + // We have a copy tag. We assume that: + // - BX == src[s] & 0x03 + // - CX == src[s] + CMPQ BX, $2 + JEQ tagCopy2 + JA tagCopy4 + + // case tagCopy1: + // s += 2 + ADDQ $2, SI + + // if uint(s) > uint(len(src)) { etc } + MOVQ SI, BX + SUBQ R11, BX + CMPQ BX, R12 + JA errCorrupt + + // offset = int(uint32(src[s-2])&0xe0<<3 | uint32(src[s-1])) + MOVQ CX, DX + ANDQ $0xe0, DX + SHLQ $3, DX + MOVBQZX -1(SI), BX + ORQ BX, DX + + // length = 4 + int(src[s-2])>>2&0x7 + SHRQ $2, CX + ANDQ $7, CX + ADDQ $4, CX + +doCopy: + // This is the end of the outer "switch", when we have a copy tag. + // + // We assume that: + // - CX == length && CX > 0 + // - DX == offset + + // if offset <= 0 { etc } + CMPQ DX, $0 + JLE errCorrupt + + // if d < offset { etc } + MOVQ DI, BX + SUBQ R8, BX + CMPQ BX, DX + JLT errCorrupt + + // if length > len(dst)-d { etc } + MOVQ R10, BX + SUBQ DI, BX + CMPQ CX, BX + JGT errCorrupt + + // forwardCopy(dst[d:d+length], dst[d-offset:]); d += length + // + // Set: + // - R14 = len(dst)-d + // - R15 = &dst[d-offset] + MOVQ R10, R14 + SUBQ DI, R14 + MOVQ DI, R15 + SUBQ DX, R15 + + // !!! Try a faster technique for short (16 or fewer bytes) forward copies. + // + // First, try using two 8-byte load/stores, similar to the doLit technique + // above. Even if dst[d:d+length] and dst[d-offset:] can overlap, this is + // still OK if offset >= 8. Note that this has to be two 8-byte load/stores + // and not one 16-byte load/store, and the first store has to be before the + // second load, due to the overlap if offset is in the range [8, 16). + // + // if length > 16 || offset < 8 || len(dst)-d < 16 { + // goto slowForwardCopy + // } + // copy 16 bytes + // d += length + CMPQ CX, $16 + JGT slowForwardCopy + CMPQ DX, $8 + JLT slowForwardCopy + CMPQ R14, $16 + JLT slowForwardCopy + MOVQ 0(R15), AX + MOVQ AX, 0(DI) + MOVQ 8(R15), BX + MOVQ BX, 8(DI) + ADDQ CX, DI + JMP loop + +slowForwardCopy: + // !!! If the forward copy is longer than 16 bytes, or if offset < 8, we + // can still try 8-byte load stores, provided we can overrun up to 10 extra + // bytes. As above, the overrun will be fixed up by subsequent iterations + // of the outermost loop. + // + // The C++ snappy code calls this technique IncrementalCopyFastPath. Its + // commentary says: + // + // ---- + // + // The main part of this loop is a simple copy of eight bytes at a time + // until we've copied (at least) the requested amount of bytes. However, + // if d and d-offset are less than eight bytes apart (indicating a + // repeating pattern of length < 8), we first need to expand the pattern in + // order to get the correct results. For instance, if the buffer looks like + // this, with the eight-byte and patterns marked as + // intervals: + // + // abxxxxxxxxxxxx + // [------] d-offset + // [------] d + // + // a single eight-byte copy from to will repeat the pattern + // once, after which we can move two bytes without moving : + // + // ababxxxxxxxxxx + // [------] d-offset + // [------] d + // + // and repeat the exercise until the two no longer overlap. + // + // This allows us to do very well in the special case of one single byte + // repeated many times, without taking a big hit for more general cases. + // + // The worst case of extra writing past the end of the match occurs when + // offset == 1 and length == 1; the last copy will read from byte positions + // [0..7] and write to [4..11], whereas it was only supposed to write to + // position 1. Thus, ten excess bytes. + // + // ---- + // + // That "10 byte overrun" worst case is confirmed by Go's + // TestSlowForwardCopyOverrun, which also tests the fixUpSlowForwardCopy + // and finishSlowForwardCopy algorithm. + // + // if length > len(dst)-d-10 { + // goto verySlowForwardCopy + // } + SUBQ $10, R14 + CMPQ CX, R14 + JGT verySlowForwardCopy + +makeOffsetAtLeast8: + // !!! As above, expand the pattern so that offset >= 8 and we can use + // 8-byte load/stores. + // + // for offset < 8 { + // copy 8 bytes from dst[d-offset:] to dst[d:] + // length -= offset + // d += offset + // offset += offset + // // The two previous lines together means that d-offset, and therefore + // // R15, is unchanged. + // } + CMPQ DX, $8 + JGE fixUpSlowForwardCopy + MOVQ (R15), BX + MOVQ BX, (DI) + SUBQ DX, CX + ADDQ DX, DI + ADDQ DX, DX + JMP makeOffsetAtLeast8 + +fixUpSlowForwardCopy: + // !!! Add length (which might be negative now) to d (implied by DI being + // &dst[d]) so that d ends up at the right place when we jump back to the + // top of the loop. Before we do that, though, we save DI to AX so that, if + // length is positive, copying the remaining length bytes will write to the + // right place. + MOVQ DI, AX + ADDQ CX, DI + +finishSlowForwardCopy: + // !!! Repeat 8-byte load/stores until length <= 0. Ending with a negative + // length means that we overrun, but as above, that will be fixed up by + // subsequent iterations of the outermost loop. + CMPQ CX, $0 + JLE loop + MOVQ (R15), BX + MOVQ BX, (AX) + ADDQ $8, R15 + ADDQ $8, AX + SUBQ $8, CX + JMP finishSlowForwardCopy + +verySlowForwardCopy: + // verySlowForwardCopy is a simple implementation of forward copy. In C + // parlance, this is a do/while loop instead of a while loop, since we know + // that length > 0. In Go syntax: + // + // for { + // dst[d] = dst[d - offset] + // d++ + // length-- + // if length == 0 { + // break + // } + // } + MOVB (R15), BX + MOVB BX, (DI) + INCQ R15 + INCQ DI + DECQ CX + JNZ verySlowForwardCopy + JMP loop + +// The code above handles copy tags. +// ---------------------------------------- + +end: + // This is the end of the "for s < len(src)". + // + // if d != len(dst) { etc } + CMPQ DI, R10 + JNE errCorrupt + + // return 0 + MOVQ $0, ret+48(FP) + RET + +errCorrupt: + // return decodeErrCodeCorrupt + MOVQ $1, ret+48(FP) + RET diff --git a/vendor/github.com/golang/snappy/decode_other.go b/vendor/github.com/golang/snappy/decode_other.go new file mode 100644 index 00000000..8c9f2049 --- /dev/null +++ b/vendor/github.com/golang/snappy/decode_other.go @@ -0,0 +1,101 @@ +// Copyright 2016 The Snappy-Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// +build !amd64 appengine !gc noasm + +package snappy + +// decode writes the decoding of src to dst. It assumes that the varint-encoded +// length of the decompressed bytes has already been read, and that len(dst) +// equals that length. +// +// It returns 0 on success or a decodeErrCodeXxx error code on failure. +func decode(dst, src []byte) int { + var d, s, offset, length int + for s < len(src) { + switch src[s] & 0x03 { + case tagLiteral: + x := uint32(src[s] >> 2) + switch { + case x < 60: + s++ + case x == 60: + s += 2 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + x = uint32(src[s-1]) + case x == 61: + s += 3 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + x = uint32(src[s-2]) | uint32(src[s-1])<<8 + case x == 62: + s += 4 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + x = uint32(src[s-3]) | uint32(src[s-2])<<8 | uint32(src[s-1])<<16 + case x == 63: + s += 5 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + x = uint32(src[s-4]) | uint32(src[s-3])<<8 | uint32(src[s-2])<<16 | uint32(src[s-1])<<24 + } + length = int(x) + 1 + if length <= 0 { + return decodeErrCodeUnsupportedLiteralLength + } + if length > len(dst)-d || length > len(src)-s { + return decodeErrCodeCorrupt + } + copy(dst[d:], src[s:s+length]) + d += length + s += length + continue + + case tagCopy1: + s += 2 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + length = 4 + int(src[s-2])>>2&0x7 + offset = int(uint32(src[s-2])&0xe0<<3 | uint32(src[s-1])) + + case tagCopy2: + s += 3 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + length = 1 + int(src[s-3])>>2 + offset = int(uint32(src[s-2]) | uint32(src[s-1])<<8) + + case tagCopy4: + s += 5 + if uint(s) > uint(len(src)) { // The uint conversions catch overflow from the previous line. + return decodeErrCodeCorrupt + } + length = 1 + int(src[s-5])>>2 + offset = int(uint32(src[s-4]) | uint32(src[s-3])<<8 | uint32(src[s-2])<<16 | uint32(src[s-1])<<24) + } + + if offset <= 0 || d < offset || length > len(dst)-d { + return decodeErrCodeCorrupt + } + // Copy from an earlier sub-slice of dst to a later sub-slice. Unlike + // the built-in copy function, this byte-by-byte copy always runs + // forwards, even if the slices overlap. Conceptually, this is: + // + // d += forwardCopy(dst[d:d+length], dst[d-offset:]) + for end := d + length; d != end; d++ { + dst[d] = dst[d-offset] + } + } + if d != len(dst) { + return decodeErrCodeCorrupt + } + return 0 +} diff --git a/vendor/github.com/golang/snappy/encode.go b/vendor/github.com/golang/snappy/encode.go new file mode 100644 index 00000000..8d393e90 --- /dev/null +++ b/vendor/github.com/golang/snappy/encode.go @@ -0,0 +1,285 @@ +// Copyright 2011 The Snappy-Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package snappy + +import ( + "encoding/binary" + "errors" + "io" +) + +// Encode returns the encoded form of src. The returned slice may be a sub- +// slice of dst if dst was large enough to hold the entire encoded block. +// Otherwise, a newly allocated slice will be returned. +// +// The dst and src must not overlap. It is valid to pass a nil dst. +func Encode(dst, src []byte) []byte { + if n := MaxEncodedLen(len(src)); n < 0 { + panic(ErrTooLarge) + } else if len(dst) < n { + dst = make([]byte, n) + } + + // The block starts with the varint-encoded length of the decompressed bytes. + d := binary.PutUvarint(dst, uint64(len(src))) + + for len(src) > 0 { + p := src + src = nil + if len(p) > maxBlockSize { + p, src = p[:maxBlockSize], p[maxBlockSize:] + } + if len(p) < minNonLiteralBlockSize { + d += emitLiteral(dst[d:], p) + } else { + d += encodeBlock(dst[d:], p) + } + } + return dst[:d] +} + +// inputMargin is the minimum number of extra input bytes to keep, inside +// encodeBlock's inner loop. On some architectures, this margin lets us +// implement a fast path for emitLiteral, where the copy of short (<= 16 byte) +// literals can be implemented as a single load to and store from a 16-byte +// register. That literal's actual length can be as short as 1 byte, so this +// can copy up to 15 bytes too much, but that's OK as subsequent iterations of +// the encoding loop will fix up the copy overrun, and this inputMargin ensures +// that we don't overrun the dst and src buffers. +const inputMargin = 16 - 1 + +// minNonLiteralBlockSize is the minimum size of the input to encodeBlock that +// could be encoded with a copy tag. This is the minimum with respect to the +// algorithm used by encodeBlock, not a minimum enforced by the file format. +// +// The encoded output must start with at least a 1 byte literal, as there are +// no previous bytes to copy. A minimal (1 byte) copy after that, generated +// from an emitCopy call in encodeBlock's main loop, would require at least +// another inputMargin bytes, for the reason above: we want any emitLiteral +// calls inside encodeBlock's main loop to use the fast path if possible, which +// requires being able to overrun by inputMargin bytes. Thus, +// minNonLiteralBlockSize equals 1 + 1 + inputMargin. +// +// The C++ code doesn't use this exact threshold, but it could, as discussed at +// https://groups.google.com/d/topic/snappy-compression/oGbhsdIJSJ8/discussion +// The difference between Go (2+inputMargin) and C++ (inputMargin) is purely an +// optimization. It should not affect the encoded form. This is tested by +// TestSameEncodingAsCppShortCopies. +const minNonLiteralBlockSize = 1 + 1 + inputMargin + +// MaxEncodedLen returns the maximum length of a snappy block, given its +// uncompressed length. +// +// It will return a negative value if srcLen is too large to encode. +func MaxEncodedLen(srcLen int) int { + n := uint64(srcLen) + if n > 0xffffffff { + return -1 + } + // Compressed data can be defined as: + // compressed := item* literal* + // item := literal* copy + // + // The trailing literal sequence has a space blowup of at most 62/60 + // since a literal of length 60 needs one tag byte + one extra byte + // for length information. + // + // Item blowup is trickier to measure. Suppose the "copy" op copies + // 4 bytes of data. Because of a special check in the encoding code, + // we produce a 4-byte copy only if the offset is < 65536. Therefore + // the copy op takes 3 bytes to encode, and this type of item leads + // to at most the 62/60 blowup for representing literals. + // + // Suppose the "copy" op copies 5 bytes of data. If the offset is big + // enough, it will take 5 bytes to encode the copy op. Therefore the + // worst case here is a one-byte literal followed by a five-byte copy. + // That is, 6 bytes of input turn into 7 bytes of "compressed" data. + // + // This last factor dominates the blowup, so the final estimate is: + n = 32 + n + n/6 + if n > 0xffffffff { + return -1 + } + return int(n) +} + +var errClosed = errors.New("snappy: Writer is closed") + +// NewWriter returns a new Writer that compresses to w. +// +// The Writer returned does not buffer writes. There is no need to Flush or +// Close such a Writer. +// +// Deprecated: the Writer returned is not suitable for many small writes, only +// for few large writes. Use NewBufferedWriter instead, which is efficient +// regardless of the frequency and shape of the writes, and remember to Close +// that Writer when done. +func NewWriter(w io.Writer) *Writer { + return &Writer{ + w: w, + obuf: make([]byte, obufLen), + } +} + +// NewBufferedWriter returns a new Writer that compresses to w, using the +// framing format described at +// https://github.com/google/snappy/blob/master/framing_format.txt +// +// The Writer returned buffers writes. Users must call Close to guarantee all +// data has been forwarded to the underlying io.Writer. They may also call +// Flush zero or more times before calling Close. +func NewBufferedWriter(w io.Writer) *Writer { + return &Writer{ + w: w, + ibuf: make([]byte, 0, maxBlockSize), + obuf: make([]byte, obufLen), + } +} + +// Writer is an io.Writer that can write Snappy-compressed bytes. +type Writer struct { + w io.Writer + err error + + // ibuf is a buffer for the incoming (uncompressed) bytes. + // + // Its use is optional. For backwards compatibility, Writers created by the + // NewWriter function have ibuf == nil, do not buffer incoming bytes, and + // therefore do not need to be Flush'ed or Close'd. + ibuf []byte + + // obuf is a buffer for the outgoing (compressed) bytes. + obuf []byte + + // wroteStreamHeader is whether we have written the stream header. + wroteStreamHeader bool +} + +// Reset discards the writer's state and switches the Snappy writer to write to +// w. This permits reusing a Writer rather than allocating a new one. +func (w *Writer) Reset(writer io.Writer) { + w.w = writer + w.err = nil + if w.ibuf != nil { + w.ibuf = w.ibuf[:0] + } + w.wroteStreamHeader = false +} + +// Write satisfies the io.Writer interface. +func (w *Writer) Write(p []byte) (nRet int, errRet error) { + if w.ibuf == nil { + // Do not buffer incoming bytes. This does not perform or compress well + // if the caller of Writer.Write writes many small slices. This + // behavior is therefore deprecated, but still supported for backwards + // compatibility with code that doesn't explicitly Flush or Close. + return w.write(p) + } + + // The remainder of this method is based on bufio.Writer.Write from the + // standard library. + + for len(p) > (cap(w.ibuf)-len(w.ibuf)) && w.err == nil { + var n int + if len(w.ibuf) == 0 { + // Large write, empty buffer. + // Write directly from p to avoid copy. + n, _ = w.write(p) + } else { + n = copy(w.ibuf[len(w.ibuf):cap(w.ibuf)], p) + w.ibuf = w.ibuf[:len(w.ibuf)+n] + w.Flush() + } + nRet += n + p = p[n:] + } + if w.err != nil { + return nRet, w.err + } + n := copy(w.ibuf[len(w.ibuf):cap(w.ibuf)], p) + w.ibuf = w.ibuf[:len(w.ibuf)+n] + nRet += n + return nRet, nil +} + +func (w *Writer) write(p []byte) (nRet int, errRet error) { + if w.err != nil { + return 0, w.err + } + for len(p) > 0 { + obufStart := len(magicChunk) + if !w.wroteStreamHeader { + w.wroteStreamHeader = true + copy(w.obuf, magicChunk) + obufStart = 0 + } + + var uncompressed []byte + if len(p) > maxBlockSize { + uncompressed, p = p[:maxBlockSize], p[maxBlockSize:] + } else { + uncompressed, p = p, nil + } + checksum := crc(uncompressed) + + // Compress the buffer, discarding the result if the improvement + // isn't at least 12.5%. + compressed := Encode(w.obuf[obufHeaderLen:], uncompressed) + chunkType := uint8(chunkTypeCompressedData) + chunkLen := 4 + len(compressed) + obufEnd := obufHeaderLen + len(compressed) + if len(compressed) >= len(uncompressed)-len(uncompressed)/8 { + chunkType = chunkTypeUncompressedData + chunkLen = 4 + len(uncompressed) + obufEnd = obufHeaderLen + } + + // Fill in the per-chunk header that comes before the body. + w.obuf[len(magicChunk)+0] = chunkType + w.obuf[len(magicChunk)+1] = uint8(chunkLen >> 0) + w.obuf[len(magicChunk)+2] = uint8(chunkLen >> 8) + w.obuf[len(magicChunk)+3] = uint8(chunkLen >> 16) + w.obuf[len(magicChunk)+4] = uint8(checksum >> 0) + w.obuf[len(magicChunk)+5] = uint8(checksum >> 8) + w.obuf[len(magicChunk)+6] = uint8(checksum >> 16) + w.obuf[len(magicChunk)+7] = uint8(checksum >> 24) + + if _, err := w.w.Write(w.obuf[obufStart:obufEnd]); err != nil { + w.err = err + return nRet, err + } + if chunkType == chunkTypeUncompressedData { + if _, err := w.w.Write(uncompressed); err != nil { + w.err = err + return nRet, err + } + } + nRet += len(uncompressed) + } + return nRet, nil +} + +// Flush flushes the Writer to its underlying io.Writer. +func (w *Writer) Flush() error { + if w.err != nil { + return w.err + } + if len(w.ibuf) == 0 { + return nil + } + w.write(w.ibuf) + w.ibuf = w.ibuf[:0] + return w.err +} + +// Close calls Flush and then closes the Writer. +func (w *Writer) Close() error { + w.Flush() + ret := w.err + if w.err == nil { + w.err = errClosed + } + return ret +} diff --git a/vendor/github.com/golang/snappy/encode_amd64.go b/vendor/github.com/golang/snappy/encode_amd64.go new file mode 100644 index 00000000..150d91bc --- /dev/null +++ b/vendor/github.com/golang/snappy/encode_amd64.go @@ -0,0 +1,29 @@ +// Copyright 2016 The Snappy-Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// +build !appengine +// +build gc +// +build !noasm + +package snappy + +// emitLiteral has the same semantics as in encode_other.go. +// +//go:noescape +func emitLiteral(dst, lit []byte) int + +// emitCopy has the same semantics as in encode_other.go. +// +//go:noescape +func emitCopy(dst []byte, offset, length int) int + +// extendMatch has the same semantics as in encode_other.go. +// +//go:noescape +func extendMatch(src []byte, i, j int) int + +// encodeBlock has the same semantics as in encode_other.go. +// +//go:noescape +func encodeBlock(dst, src []byte) (d int) diff --git a/vendor/github.com/golang/snappy/encode_amd64.s b/vendor/github.com/golang/snappy/encode_amd64.s new file mode 100644 index 00000000..adfd979f --- /dev/null +++ b/vendor/github.com/golang/snappy/encode_amd64.s @@ -0,0 +1,730 @@ +// Copyright 2016 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// +build !appengine +// +build gc +// +build !noasm + +#include "textflag.h" + +// The XXX lines assemble on Go 1.4, 1.5 and 1.7, but not 1.6, due to a +// Go toolchain regression. See https://github.com/golang/go/issues/15426 and +// https://github.com/golang/snappy/issues/29 +// +// As a workaround, the package was built with a known good assembler, and +// those instructions were disassembled by "objdump -d" to yield the +// 4e 0f b7 7c 5c 78 movzwq 0x78(%rsp,%r11,2),%r15 +// style comments, in AT&T asm syntax. Note that rsp here is a physical +// register, not Go/asm's SP pseudo-register (see https://golang.org/doc/asm). +// The instructions were then encoded as "BYTE $0x.." sequences, which assemble +// fine on Go 1.6. + +// The asm code generally follows the pure Go code in encode_other.go, except +// where marked with a "!!!". + +// ---------------------------------------------------------------------------- + +// func emitLiteral(dst, lit []byte) int +// +// All local variables fit into registers. The register allocation: +// - AX len(lit) +// - BX n +// - DX return value +// - DI &dst[i] +// - R10 &lit[0] +// +// The 24 bytes of stack space is to call runtime·memmove. +// +// The unusual register allocation of local variables, such as R10 for the +// source pointer, matches the allocation used at the call site in encodeBlock, +// which makes it easier to manually inline this function. +TEXT ·emitLiteral(SB), NOSPLIT, $24-56 + MOVQ dst_base+0(FP), DI + MOVQ lit_base+24(FP), R10 + MOVQ lit_len+32(FP), AX + MOVQ AX, DX + MOVL AX, BX + SUBL $1, BX + + CMPL BX, $60 + JLT oneByte + CMPL BX, $256 + JLT twoBytes + +threeBytes: + MOVB $0xf4, 0(DI) + MOVW BX, 1(DI) + ADDQ $3, DI + ADDQ $3, DX + JMP memmove + +twoBytes: + MOVB $0xf0, 0(DI) + MOVB BX, 1(DI) + ADDQ $2, DI + ADDQ $2, DX + JMP memmove + +oneByte: + SHLB $2, BX + MOVB BX, 0(DI) + ADDQ $1, DI + ADDQ $1, DX + +memmove: + MOVQ DX, ret+48(FP) + + // copy(dst[i:], lit) + // + // This means calling runtime·memmove(&dst[i], &lit[0], len(lit)), so we push + // DI, R10 and AX as arguments. + MOVQ DI, 0(SP) + MOVQ R10, 8(SP) + MOVQ AX, 16(SP) + CALL runtime·memmove(SB) + RET + +// ---------------------------------------------------------------------------- + +// func emitCopy(dst []byte, offset, length int) int +// +// All local variables fit into registers. The register allocation: +// - AX length +// - SI &dst[0] +// - DI &dst[i] +// - R11 offset +// +// The unusual register allocation of local variables, such as R11 for the +// offset, matches the allocation used at the call site in encodeBlock, which +// makes it easier to manually inline this function. +TEXT ·emitCopy(SB), NOSPLIT, $0-48 + MOVQ dst_base+0(FP), DI + MOVQ DI, SI + MOVQ offset+24(FP), R11 + MOVQ length+32(FP), AX + +loop0: + // for length >= 68 { etc } + CMPL AX, $68 + JLT step1 + + // Emit a length 64 copy, encoded as 3 bytes. + MOVB $0xfe, 0(DI) + MOVW R11, 1(DI) + ADDQ $3, DI + SUBL $64, AX + JMP loop0 + +step1: + // if length > 64 { etc } + CMPL AX, $64 + JLE step2 + + // Emit a length 60 copy, encoded as 3 bytes. + MOVB $0xee, 0(DI) + MOVW R11, 1(DI) + ADDQ $3, DI + SUBL $60, AX + +step2: + // if length >= 12 || offset >= 2048 { goto step3 } + CMPL AX, $12 + JGE step3 + CMPL R11, $2048 + JGE step3 + + // Emit the remaining copy, encoded as 2 bytes. + MOVB R11, 1(DI) + SHRL $8, R11 + SHLB $5, R11 + SUBB $4, AX + SHLB $2, AX + ORB AX, R11 + ORB $1, R11 + MOVB R11, 0(DI) + ADDQ $2, DI + + // Return the number of bytes written. + SUBQ SI, DI + MOVQ DI, ret+40(FP) + RET + +step3: + // Emit the remaining copy, encoded as 3 bytes. + SUBL $1, AX + SHLB $2, AX + ORB $2, AX + MOVB AX, 0(DI) + MOVW R11, 1(DI) + ADDQ $3, DI + + // Return the number of bytes written. + SUBQ SI, DI + MOVQ DI, ret+40(FP) + RET + +// ---------------------------------------------------------------------------- + +// func extendMatch(src []byte, i, j int) int +// +// All local variables fit into registers. The register allocation: +// - DX &src[0] +// - SI &src[j] +// - R13 &src[len(src) - 8] +// - R14 &src[len(src)] +// - R15 &src[i] +// +// The unusual register allocation of local variables, such as R15 for a source +// pointer, matches the allocation used at the call site in encodeBlock, which +// makes it easier to manually inline this function. +TEXT ·extendMatch(SB), NOSPLIT, $0-48 + MOVQ src_base+0(FP), DX + MOVQ src_len+8(FP), R14 + MOVQ i+24(FP), R15 + MOVQ j+32(FP), SI + ADDQ DX, R14 + ADDQ DX, R15 + ADDQ DX, SI + MOVQ R14, R13 + SUBQ $8, R13 + +cmp8: + // As long as we are 8 or more bytes before the end of src, we can load and + // compare 8 bytes at a time. If those 8 bytes are equal, repeat. + CMPQ SI, R13 + JA cmp1 + MOVQ (R15), AX + MOVQ (SI), BX + CMPQ AX, BX + JNE bsf + ADDQ $8, R15 + ADDQ $8, SI + JMP cmp8 + +bsf: + // If those 8 bytes were not equal, XOR the two 8 byte values, and return + // the index of the first byte that differs. The BSF instruction finds the + // least significant 1 bit, the amd64 architecture is little-endian, and + // the shift by 3 converts a bit index to a byte index. + XORQ AX, BX + BSFQ BX, BX + SHRQ $3, BX + ADDQ BX, SI + + // Convert from &src[ret] to ret. + SUBQ DX, SI + MOVQ SI, ret+40(FP) + RET + +cmp1: + // In src's tail, compare 1 byte at a time. + CMPQ SI, R14 + JAE extendMatchEnd + MOVB (R15), AX + MOVB (SI), BX + CMPB AX, BX + JNE extendMatchEnd + ADDQ $1, R15 + ADDQ $1, SI + JMP cmp1 + +extendMatchEnd: + // Convert from &src[ret] to ret. + SUBQ DX, SI + MOVQ SI, ret+40(FP) + RET + +// ---------------------------------------------------------------------------- + +// func encodeBlock(dst, src []byte) (d int) +// +// All local variables fit into registers, other than "var table". The register +// allocation: +// - AX . . +// - BX . . +// - CX 56 shift (note that amd64 shifts by non-immediates must use CX). +// - DX 64 &src[0], tableSize +// - SI 72 &src[s] +// - DI 80 &dst[d] +// - R9 88 sLimit +// - R10 . &src[nextEmit] +// - R11 96 prevHash, currHash, nextHash, offset +// - R12 104 &src[base], skip +// - R13 . &src[nextS], &src[len(src) - 8] +// - R14 . len(src), bytesBetweenHashLookups, &src[len(src)], x +// - R15 112 candidate +// +// The second column (56, 64, etc) is the stack offset to spill the registers +// when calling other functions. We could pack this slightly tighter, but it's +// simpler to have a dedicated spill map independent of the function called. +// +// "var table [maxTableSize]uint16" takes up 32768 bytes of stack space. An +// extra 56 bytes, to call other functions, and an extra 64 bytes, to spill +// local variables (registers) during calls gives 32768 + 56 + 64 = 32888. +TEXT ·encodeBlock(SB), 0, $32888-56 + MOVQ dst_base+0(FP), DI + MOVQ src_base+24(FP), SI + MOVQ src_len+32(FP), R14 + + // shift, tableSize := uint32(32-8), 1<<8 + MOVQ $24, CX + MOVQ $256, DX + +calcShift: + // for ; tableSize < maxTableSize && tableSize < len(src); tableSize *= 2 { + // shift-- + // } + CMPQ DX, $16384 + JGE varTable + CMPQ DX, R14 + JGE varTable + SUBQ $1, CX + SHLQ $1, DX + JMP calcShift + +varTable: + // var table [maxTableSize]uint16 + // + // In the asm code, unlike the Go code, we can zero-initialize only the + // first tableSize elements. Each uint16 element is 2 bytes and each MOVOU + // writes 16 bytes, so we can do only tableSize/8 writes instead of the + // 2048 writes that would zero-initialize all of table's 32768 bytes. + SHRQ $3, DX + LEAQ table-32768(SP), BX + PXOR X0, X0 + +memclr: + MOVOU X0, 0(BX) + ADDQ $16, BX + SUBQ $1, DX + JNZ memclr + + // !!! DX = &src[0] + MOVQ SI, DX + + // sLimit := len(src) - inputMargin + MOVQ R14, R9 + SUBQ $15, R9 + + // !!! Pre-emptively spill CX, DX and R9 to the stack. Their values don't + // change for the rest of the function. + MOVQ CX, 56(SP) + MOVQ DX, 64(SP) + MOVQ R9, 88(SP) + + // nextEmit := 0 + MOVQ DX, R10 + + // s := 1 + ADDQ $1, SI + + // nextHash := hash(load32(src, s), shift) + MOVL 0(SI), R11 + IMULL $0x1e35a7bd, R11 + SHRL CX, R11 + +outer: + // for { etc } + + // skip := 32 + MOVQ $32, R12 + + // nextS := s + MOVQ SI, R13 + + // candidate := 0 + MOVQ $0, R15 + +inner0: + // for { etc } + + // s := nextS + MOVQ R13, SI + + // bytesBetweenHashLookups := skip >> 5 + MOVQ R12, R14 + SHRQ $5, R14 + + // nextS = s + bytesBetweenHashLookups + ADDQ R14, R13 + + // skip += bytesBetweenHashLookups + ADDQ R14, R12 + + // if nextS > sLimit { goto emitRemainder } + MOVQ R13, AX + SUBQ DX, AX + CMPQ AX, R9 + JA emitRemainder + + // candidate = int(table[nextHash]) + // XXX: MOVWQZX table-32768(SP)(R11*2), R15 + // XXX: 4e 0f b7 7c 5c 78 movzwq 0x78(%rsp,%r11,2),%r15 + BYTE $0x4e + BYTE $0x0f + BYTE $0xb7 + BYTE $0x7c + BYTE $0x5c + BYTE $0x78 + + // table[nextHash] = uint16(s) + MOVQ SI, AX + SUBQ DX, AX + + // XXX: MOVW AX, table-32768(SP)(R11*2) + // XXX: 66 42 89 44 5c 78 mov %ax,0x78(%rsp,%r11,2) + BYTE $0x66 + BYTE $0x42 + BYTE $0x89 + BYTE $0x44 + BYTE $0x5c + BYTE $0x78 + + // nextHash = hash(load32(src, nextS), shift) + MOVL 0(R13), R11 + IMULL $0x1e35a7bd, R11 + SHRL CX, R11 + + // if load32(src, s) != load32(src, candidate) { continue } break + MOVL 0(SI), AX + MOVL (DX)(R15*1), BX + CMPL AX, BX + JNE inner0 + +fourByteMatch: + // As per the encode_other.go code: + // + // A 4-byte match has been found. We'll later see etc. + + // !!! Jump to a fast path for short (<= 16 byte) literals. See the comment + // on inputMargin in encode.go. + MOVQ SI, AX + SUBQ R10, AX + CMPQ AX, $16 + JLE emitLiteralFastPath + + // ---------------------------------------- + // Begin inline of the emitLiteral call. + // + // d += emitLiteral(dst[d:], src[nextEmit:s]) + + MOVL AX, BX + SUBL $1, BX + + CMPL BX, $60 + JLT inlineEmitLiteralOneByte + CMPL BX, $256 + JLT inlineEmitLiteralTwoBytes + +inlineEmitLiteralThreeBytes: + MOVB $0xf4, 0(DI) + MOVW BX, 1(DI) + ADDQ $3, DI + JMP inlineEmitLiteralMemmove + +inlineEmitLiteralTwoBytes: + MOVB $0xf0, 0(DI) + MOVB BX, 1(DI) + ADDQ $2, DI + JMP inlineEmitLiteralMemmove + +inlineEmitLiteralOneByte: + SHLB $2, BX + MOVB BX, 0(DI) + ADDQ $1, DI + +inlineEmitLiteralMemmove: + // Spill local variables (registers) onto the stack; call; unspill. + // + // copy(dst[i:], lit) + // + // This means calling runtime·memmove(&dst[i], &lit[0], len(lit)), so we push + // DI, R10 and AX as arguments. + MOVQ DI, 0(SP) + MOVQ R10, 8(SP) + MOVQ AX, 16(SP) + ADDQ AX, DI // Finish the "d +=" part of "d += emitLiteral(etc)". + MOVQ SI, 72(SP) + MOVQ DI, 80(SP) + MOVQ R15, 112(SP) + CALL runtime·memmove(SB) + MOVQ 56(SP), CX + MOVQ 64(SP), DX + MOVQ 72(SP), SI + MOVQ 80(SP), DI + MOVQ 88(SP), R9 + MOVQ 112(SP), R15 + JMP inner1 + +inlineEmitLiteralEnd: + // End inline of the emitLiteral call. + // ---------------------------------------- + +emitLiteralFastPath: + // !!! Emit the 1-byte encoding "uint8(len(lit)-1)<<2". + MOVB AX, BX + SUBB $1, BX + SHLB $2, BX + MOVB BX, (DI) + ADDQ $1, DI + + // !!! Implement the copy from lit to dst as a 16-byte load and store. + // (Encode's documentation says that dst and src must not overlap.) + // + // This always copies 16 bytes, instead of only len(lit) bytes, but that's + // OK. Subsequent iterations will fix up the overrun. + // + // Note that on amd64, it is legal and cheap to issue unaligned 8-byte or + // 16-byte loads and stores. This technique probably wouldn't be as + // effective on architectures that are fussier about alignment. + MOVOU 0(R10), X0 + MOVOU X0, 0(DI) + ADDQ AX, DI + +inner1: + // for { etc } + + // base := s + MOVQ SI, R12 + + // !!! offset := base - candidate + MOVQ R12, R11 + SUBQ R15, R11 + SUBQ DX, R11 + + // ---------------------------------------- + // Begin inline of the extendMatch call. + // + // s = extendMatch(src, candidate+4, s+4) + + // !!! R14 = &src[len(src)] + MOVQ src_len+32(FP), R14 + ADDQ DX, R14 + + // !!! R13 = &src[len(src) - 8] + MOVQ R14, R13 + SUBQ $8, R13 + + // !!! R15 = &src[candidate + 4] + ADDQ $4, R15 + ADDQ DX, R15 + + // !!! s += 4 + ADDQ $4, SI + +inlineExtendMatchCmp8: + // As long as we are 8 or more bytes before the end of src, we can load and + // compare 8 bytes at a time. If those 8 bytes are equal, repeat. + CMPQ SI, R13 + JA inlineExtendMatchCmp1 + MOVQ (R15), AX + MOVQ (SI), BX + CMPQ AX, BX + JNE inlineExtendMatchBSF + ADDQ $8, R15 + ADDQ $8, SI + JMP inlineExtendMatchCmp8 + +inlineExtendMatchBSF: + // If those 8 bytes were not equal, XOR the two 8 byte values, and return + // the index of the first byte that differs. The BSF instruction finds the + // least significant 1 bit, the amd64 architecture is little-endian, and + // the shift by 3 converts a bit index to a byte index. + XORQ AX, BX + BSFQ BX, BX + SHRQ $3, BX + ADDQ BX, SI + JMP inlineExtendMatchEnd + +inlineExtendMatchCmp1: + // In src's tail, compare 1 byte at a time. + CMPQ SI, R14 + JAE inlineExtendMatchEnd + MOVB (R15), AX + MOVB (SI), BX + CMPB AX, BX + JNE inlineExtendMatchEnd + ADDQ $1, R15 + ADDQ $1, SI + JMP inlineExtendMatchCmp1 + +inlineExtendMatchEnd: + // End inline of the extendMatch call. + // ---------------------------------------- + + // ---------------------------------------- + // Begin inline of the emitCopy call. + // + // d += emitCopy(dst[d:], base-candidate, s-base) + + // !!! length := s - base + MOVQ SI, AX + SUBQ R12, AX + +inlineEmitCopyLoop0: + // for length >= 68 { etc } + CMPL AX, $68 + JLT inlineEmitCopyStep1 + + // Emit a length 64 copy, encoded as 3 bytes. + MOVB $0xfe, 0(DI) + MOVW R11, 1(DI) + ADDQ $3, DI + SUBL $64, AX + JMP inlineEmitCopyLoop0 + +inlineEmitCopyStep1: + // if length > 64 { etc } + CMPL AX, $64 + JLE inlineEmitCopyStep2 + + // Emit a length 60 copy, encoded as 3 bytes. + MOVB $0xee, 0(DI) + MOVW R11, 1(DI) + ADDQ $3, DI + SUBL $60, AX + +inlineEmitCopyStep2: + // if length >= 12 || offset >= 2048 { goto inlineEmitCopyStep3 } + CMPL AX, $12 + JGE inlineEmitCopyStep3 + CMPL R11, $2048 + JGE inlineEmitCopyStep3 + + // Emit the remaining copy, encoded as 2 bytes. + MOVB R11, 1(DI) + SHRL $8, R11 + SHLB $5, R11 + SUBB $4, AX + SHLB $2, AX + ORB AX, R11 + ORB $1, R11 + MOVB R11, 0(DI) + ADDQ $2, DI + JMP inlineEmitCopyEnd + +inlineEmitCopyStep3: + // Emit the remaining copy, encoded as 3 bytes. + SUBL $1, AX + SHLB $2, AX + ORB $2, AX + MOVB AX, 0(DI) + MOVW R11, 1(DI) + ADDQ $3, DI + +inlineEmitCopyEnd: + // End inline of the emitCopy call. + // ---------------------------------------- + + // nextEmit = s + MOVQ SI, R10 + + // if s >= sLimit { goto emitRemainder } + MOVQ SI, AX + SUBQ DX, AX + CMPQ AX, R9 + JAE emitRemainder + + // As per the encode_other.go code: + // + // We could immediately etc. + + // x := load64(src, s-1) + MOVQ -1(SI), R14 + + // prevHash := hash(uint32(x>>0), shift) + MOVL R14, R11 + IMULL $0x1e35a7bd, R11 + SHRL CX, R11 + + // table[prevHash] = uint16(s-1) + MOVQ SI, AX + SUBQ DX, AX + SUBQ $1, AX + + // XXX: MOVW AX, table-32768(SP)(R11*2) + // XXX: 66 42 89 44 5c 78 mov %ax,0x78(%rsp,%r11,2) + BYTE $0x66 + BYTE $0x42 + BYTE $0x89 + BYTE $0x44 + BYTE $0x5c + BYTE $0x78 + + // currHash := hash(uint32(x>>8), shift) + SHRQ $8, R14 + MOVL R14, R11 + IMULL $0x1e35a7bd, R11 + SHRL CX, R11 + + // candidate = int(table[currHash]) + // XXX: MOVWQZX table-32768(SP)(R11*2), R15 + // XXX: 4e 0f b7 7c 5c 78 movzwq 0x78(%rsp,%r11,2),%r15 + BYTE $0x4e + BYTE $0x0f + BYTE $0xb7 + BYTE $0x7c + BYTE $0x5c + BYTE $0x78 + + // table[currHash] = uint16(s) + ADDQ $1, AX + + // XXX: MOVW AX, table-32768(SP)(R11*2) + // XXX: 66 42 89 44 5c 78 mov %ax,0x78(%rsp,%r11,2) + BYTE $0x66 + BYTE $0x42 + BYTE $0x89 + BYTE $0x44 + BYTE $0x5c + BYTE $0x78 + + // if uint32(x>>8) == load32(src, candidate) { continue } + MOVL (DX)(R15*1), BX + CMPL R14, BX + JEQ inner1 + + // nextHash = hash(uint32(x>>16), shift) + SHRQ $8, R14 + MOVL R14, R11 + IMULL $0x1e35a7bd, R11 + SHRL CX, R11 + + // s++ + ADDQ $1, SI + + // break out of the inner1 for loop, i.e. continue the outer loop. + JMP outer + +emitRemainder: + // if nextEmit < len(src) { etc } + MOVQ src_len+32(FP), AX + ADDQ DX, AX + CMPQ R10, AX + JEQ encodeBlockEnd + + // d += emitLiteral(dst[d:], src[nextEmit:]) + // + // Push args. + MOVQ DI, 0(SP) + MOVQ $0, 8(SP) // Unnecessary, as the callee ignores it, but conservative. + MOVQ $0, 16(SP) // Unnecessary, as the callee ignores it, but conservative. + MOVQ R10, 24(SP) + SUBQ R10, AX + MOVQ AX, 32(SP) + MOVQ AX, 40(SP) // Unnecessary, as the callee ignores it, but conservative. + + // Spill local variables (registers) onto the stack; call; unspill. + MOVQ DI, 80(SP) + CALL ·emitLiteral(SB) + MOVQ 80(SP), DI + + // Finish the "d +=" part of "d += emitLiteral(etc)". + ADDQ 48(SP), DI + +encodeBlockEnd: + MOVQ dst_base+0(FP), AX + SUBQ AX, DI + MOVQ DI, d+48(FP) + RET diff --git a/vendor/github.com/golang/snappy/encode_other.go b/vendor/github.com/golang/snappy/encode_other.go new file mode 100644 index 00000000..dbcae905 --- /dev/null +++ b/vendor/github.com/golang/snappy/encode_other.go @@ -0,0 +1,238 @@ +// Copyright 2016 The Snappy-Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// +build !amd64 appengine !gc noasm + +package snappy + +func load32(b []byte, i int) uint32 { + b = b[i : i+4 : len(b)] // Help the compiler eliminate bounds checks on the next line. + return uint32(b[0]) | uint32(b[1])<<8 | uint32(b[2])<<16 | uint32(b[3])<<24 +} + +func load64(b []byte, i int) uint64 { + b = b[i : i+8 : len(b)] // Help the compiler eliminate bounds checks on the next line. + return uint64(b[0]) | uint64(b[1])<<8 | uint64(b[2])<<16 | uint64(b[3])<<24 | + uint64(b[4])<<32 | uint64(b[5])<<40 | uint64(b[6])<<48 | uint64(b[7])<<56 +} + +// emitLiteral writes a literal chunk and returns the number of bytes written. +// +// It assumes that: +// dst is long enough to hold the encoded bytes +// 1 <= len(lit) && len(lit) <= 65536 +func emitLiteral(dst, lit []byte) int { + i, n := 0, uint(len(lit)-1) + switch { + case n < 60: + dst[0] = uint8(n)<<2 | tagLiteral + i = 1 + case n < 1<<8: + dst[0] = 60<<2 | tagLiteral + dst[1] = uint8(n) + i = 2 + default: + dst[0] = 61<<2 | tagLiteral + dst[1] = uint8(n) + dst[2] = uint8(n >> 8) + i = 3 + } + return i + copy(dst[i:], lit) +} + +// emitCopy writes a copy chunk and returns the number of bytes written. +// +// It assumes that: +// dst is long enough to hold the encoded bytes +// 1 <= offset && offset <= 65535 +// 4 <= length && length <= 65535 +func emitCopy(dst []byte, offset, length int) int { + i := 0 + // The maximum length for a single tagCopy1 or tagCopy2 op is 64 bytes. The + // threshold for this loop is a little higher (at 68 = 64 + 4), and the + // length emitted down below is is a little lower (at 60 = 64 - 4), because + // it's shorter to encode a length 67 copy as a length 60 tagCopy2 followed + // by a length 7 tagCopy1 (which encodes as 3+2 bytes) than to encode it as + // a length 64 tagCopy2 followed by a length 3 tagCopy2 (which encodes as + // 3+3 bytes). The magic 4 in the 64±4 is because the minimum length for a + // tagCopy1 op is 4 bytes, which is why a length 3 copy has to be an + // encodes-as-3-bytes tagCopy2 instead of an encodes-as-2-bytes tagCopy1. + for length >= 68 { + // Emit a length 64 copy, encoded as 3 bytes. + dst[i+0] = 63<<2 | tagCopy2 + dst[i+1] = uint8(offset) + dst[i+2] = uint8(offset >> 8) + i += 3 + length -= 64 + } + if length > 64 { + // Emit a length 60 copy, encoded as 3 bytes. + dst[i+0] = 59<<2 | tagCopy2 + dst[i+1] = uint8(offset) + dst[i+2] = uint8(offset >> 8) + i += 3 + length -= 60 + } + if length >= 12 || offset >= 2048 { + // Emit the remaining copy, encoded as 3 bytes. + dst[i+0] = uint8(length-1)<<2 | tagCopy2 + dst[i+1] = uint8(offset) + dst[i+2] = uint8(offset >> 8) + return i + 3 + } + // Emit the remaining copy, encoded as 2 bytes. + dst[i+0] = uint8(offset>>8)<<5 | uint8(length-4)<<2 | tagCopy1 + dst[i+1] = uint8(offset) + return i + 2 +} + +// extendMatch returns the largest k such that k <= len(src) and that +// src[i:i+k-j] and src[j:k] have the same contents. +// +// It assumes that: +// 0 <= i && i < j && j <= len(src) +func extendMatch(src []byte, i, j int) int { + for ; j < len(src) && src[i] == src[j]; i, j = i+1, j+1 { + } + return j +} + +func hash(u, shift uint32) uint32 { + return (u * 0x1e35a7bd) >> shift +} + +// encodeBlock encodes a non-empty src to a guaranteed-large-enough dst. It +// assumes that the varint-encoded length of the decompressed bytes has already +// been written. +// +// It also assumes that: +// len(dst) >= MaxEncodedLen(len(src)) && +// minNonLiteralBlockSize <= len(src) && len(src) <= maxBlockSize +func encodeBlock(dst, src []byte) (d int) { + // Initialize the hash table. Its size ranges from 1<<8 to 1<<14 inclusive. + // The table element type is uint16, as s < sLimit and sLimit < len(src) + // and len(src) <= maxBlockSize and maxBlockSize == 65536. + const ( + maxTableSize = 1 << 14 + // tableMask is redundant, but helps the compiler eliminate bounds + // checks. + tableMask = maxTableSize - 1 + ) + shift := uint32(32 - 8) + for tableSize := 1 << 8; tableSize < maxTableSize && tableSize < len(src); tableSize *= 2 { + shift-- + } + // In Go, all array elements are zero-initialized, so there is no advantage + // to a smaller tableSize per se. However, it matches the C++ algorithm, + // and in the asm versions of this code, we can get away with zeroing only + // the first tableSize elements. + var table [maxTableSize]uint16 + + // sLimit is when to stop looking for offset/length copies. The inputMargin + // lets us use a fast path for emitLiteral in the main loop, while we are + // looking for copies. + sLimit := len(src) - inputMargin + + // nextEmit is where in src the next emitLiteral should start from. + nextEmit := 0 + + // The encoded form must start with a literal, as there are no previous + // bytes to copy, so we start looking for hash matches at s == 1. + s := 1 + nextHash := hash(load32(src, s), shift) + + for { + // Copied from the C++ snappy implementation: + // + // Heuristic match skipping: If 32 bytes are scanned with no matches + // found, start looking only at every other byte. If 32 more bytes are + // scanned (or skipped), look at every third byte, etc.. When a match + // is found, immediately go back to looking at every byte. This is a + // small loss (~5% performance, ~0.1% density) for compressible data + // due to more bookkeeping, but for non-compressible data (such as + // JPEG) it's a huge win since the compressor quickly "realizes" the + // data is incompressible and doesn't bother looking for matches + // everywhere. + // + // The "skip" variable keeps track of how many bytes there are since + // the last match; dividing it by 32 (ie. right-shifting by five) gives + // the number of bytes to move ahead for each iteration. + skip := 32 + + nextS := s + candidate := 0 + for { + s = nextS + bytesBetweenHashLookups := skip >> 5 + nextS = s + bytesBetweenHashLookups + skip += bytesBetweenHashLookups + if nextS > sLimit { + goto emitRemainder + } + candidate = int(table[nextHash&tableMask]) + table[nextHash&tableMask] = uint16(s) + nextHash = hash(load32(src, nextS), shift) + if load32(src, s) == load32(src, candidate) { + break + } + } + + // A 4-byte match has been found. We'll later see if more than 4 bytes + // match. But, prior to the match, src[nextEmit:s] are unmatched. Emit + // them as literal bytes. + d += emitLiteral(dst[d:], src[nextEmit:s]) + + // Call emitCopy, and then see if another emitCopy could be our next + // move. Repeat until we find no match for the input immediately after + // what was consumed by the last emitCopy call. + // + // If we exit this loop normally then we need to call emitLiteral next, + // though we don't yet know how big the literal will be. We handle that + // by proceeding to the next iteration of the main loop. We also can + // exit this loop via goto if we get close to exhausting the input. + for { + // Invariant: we have a 4-byte match at s, and no need to emit any + // literal bytes prior to s. + base := s + + // Extend the 4-byte match as long as possible. + // + // This is an inlined version of: + // s = extendMatch(src, candidate+4, s+4) + s += 4 + for i := candidate + 4; s < len(src) && src[i] == src[s]; i, s = i+1, s+1 { + } + + d += emitCopy(dst[d:], base-candidate, s-base) + nextEmit = s + if s >= sLimit { + goto emitRemainder + } + + // We could immediately start working at s now, but to improve + // compression we first update the hash table at s-1 and at s. If + // another emitCopy is not our next move, also calculate nextHash + // at s+1. At least on GOARCH=amd64, these three hash calculations + // are faster as one load64 call (with some shifts) instead of + // three load32 calls. + x := load64(src, s-1) + prevHash := hash(uint32(x>>0), shift) + table[prevHash&tableMask] = uint16(s - 1) + currHash := hash(uint32(x>>8), shift) + candidate = int(table[currHash&tableMask]) + table[currHash&tableMask] = uint16(s) + if uint32(x>>8) != load32(src, candidate) { + nextHash = hash(uint32(x>>16), shift) + s++ + break + } + } + } + +emitRemainder: + if nextEmit < len(src) { + d += emitLiteral(dst[d:], src[nextEmit:]) + } + return d +} diff --git a/vendor/github.com/golang/snappy/snappy.go b/vendor/github.com/golang/snappy/snappy.go new file mode 100644 index 00000000..0cf5e379 --- /dev/null +++ b/vendor/github.com/golang/snappy/snappy.go @@ -0,0 +1,87 @@ +// Copyright 2011 The Snappy-Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package snappy implements the snappy block-based compression format. +// It aims for very high speeds and reasonable compression. +// +// The C++ snappy implementation is at https://github.com/google/snappy +package snappy // import "github.com/golang/snappy" + +import ( + "hash/crc32" +) + +/* +Each encoded block begins with the varint-encoded length of the decoded data, +followed by a sequence of chunks. Chunks begin and end on byte boundaries. The +first byte of each chunk is broken into its 2 least and 6 most significant bits +called l and m: l ranges in [0, 4) and m ranges in [0, 64). l is the chunk tag. +Zero means a literal tag. All other values mean a copy tag. + +For literal tags: + - If m < 60, the next 1 + m bytes are literal bytes. + - Otherwise, let n be the little-endian unsigned integer denoted by the next + m - 59 bytes. The next 1 + n bytes after that are literal bytes. + +For copy tags, length bytes are copied from offset bytes ago, in the style of +Lempel-Ziv compression algorithms. In particular: + - For l == 1, the offset ranges in [0, 1<<11) and the length in [4, 12). + The length is 4 + the low 3 bits of m. The high 3 bits of m form bits 8-10 + of the offset. The next byte is bits 0-7 of the offset. + - For l == 2, the offset ranges in [0, 1<<16) and the length in [1, 65). + The length is 1 + m. The offset is the little-endian unsigned integer + denoted by the next 2 bytes. + - For l == 3, this tag is a legacy format that is no longer issued by most + encoders. Nonetheless, the offset ranges in [0, 1<<32) and the length in + [1, 65). The length is 1 + m. The offset is the little-endian unsigned + integer denoted by the next 4 bytes. +*/ +const ( + tagLiteral = 0x00 + tagCopy1 = 0x01 + tagCopy2 = 0x02 + tagCopy4 = 0x03 +) + +const ( + checksumSize = 4 + chunkHeaderSize = 4 + magicChunk = "\xff\x06\x00\x00" + magicBody + magicBody = "sNaPpY" + + // maxBlockSize is the maximum size of the input to encodeBlock. It is not + // part of the wire format per se, but some parts of the encoder assume + // that an offset fits into a uint16. + // + // Also, for the framing format (Writer type instead of Encode function), + // https://github.com/google/snappy/blob/master/framing_format.txt says + // that "the uncompressed data in a chunk must be no longer than 65536 + // bytes". + maxBlockSize = 65536 + + // maxEncodedLenOfMaxBlockSize equals MaxEncodedLen(maxBlockSize), but is + // hard coded to be a const instead of a variable, so that obufLen can also + // be a const. Their equivalence is confirmed by + // TestMaxEncodedLenOfMaxBlockSize. + maxEncodedLenOfMaxBlockSize = 76490 + + obufHeaderLen = len(magicChunk) + checksumSize + chunkHeaderSize + obufLen = obufHeaderLen + maxEncodedLenOfMaxBlockSize +) + +const ( + chunkTypeCompressedData = 0x00 + chunkTypeUncompressedData = 0x01 + chunkTypePadding = 0xfe + chunkTypeStreamIdentifier = 0xff +) + +var crcTable = crc32.MakeTable(crc32.Castagnoli) + +// crc implements the checksum specified in section 3 of +// https://github.com/google/snappy/blob/master/framing_format.txt +func crc(b []byte) uint32 { + c := crc32.Update(0, crcTable, b) + return uint32(c>>15|c<<17) + 0xa282ead8 +} diff --git a/vendor/github.com/hashicorp/terraform/helper/encryption/encryption.go b/vendor/github.com/hashicorp/terraform/helper/encryption/encryption.go new file mode 100644 index 00000000..a565c6dd --- /dev/null +++ b/vendor/github.com/hashicorp/terraform/helper/encryption/encryption.go @@ -0,0 +1,40 @@ +package encryption + +import ( + "encoding/base64" + "fmt" + "strings" + + "github.com/hashicorp/errwrap" + "github.com/hashicorp/vault/helper/pgpkeys" +) + +// RetrieveGPGKey returns the PGP key specified as the pgpKey parameter, or queries +// the public key from the keybase service if the parameter is a keybase username +// prefixed with the phrase "keybase:" +func RetrieveGPGKey(pgpKey string) (string, error) { + const keybasePrefix = "keybase:" + + encryptionKey := pgpKey + if strings.HasPrefix(pgpKey, keybasePrefix) { + publicKeys, err := pgpkeys.FetchKeybasePubkeys([]string{pgpKey}) + if err != nil { + return "", errwrap.Wrapf(fmt.Sprintf("Error retrieving Public Key for %s: {{err}}", pgpKey), err) + } + encryptionKey = publicKeys[pgpKey] + } + + return encryptionKey, nil +} + +// EncryptValue encrypts the given value with the given encryption key. Description +// should be set such that errors return a meaningful user-facing response. +func EncryptValue(encryptionKey, value, description string) (string, string, error) { + fingerprints, encryptedValue, err := + pgpkeys.EncryptShares([][]byte{[]byte(value)}, []string{encryptionKey}) + if err != nil { + return "", "", errwrap.Wrapf(fmt.Sprintf("Error encrypting %s: {{err}}", description), err) + } + + return fingerprints[0], base64.StdEncoding.EncodeToString(encryptedValue[0]), nil +} diff --git a/vendor/github.com/hashicorp/vault/LICENSE b/vendor/github.com/hashicorp/vault/LICENSE new file mode 100644 index 00000000..e87a115e --- /dev/null +++ b/vendor/github.com/hashicorp/vault/LICENSE @@ -0,0 +1,363 @@ +Mozilla Public License, version 2.0 + +1. Definitions + +1.1. "Contributor" + + means each individual or legal entity that creates, contributes to the + creation of, or owns Covered Software. + +1.2. "Contributor Version" + + means the combination of the Contributions of others (if any) used by a + Contributor and that particular Contributor's Contribution. + +1.3. "Contribution" + + means Covered Software of a particular Contributor. + +1.4. "Covered Software" + + means Source Code Form to which the initial Contributor has attached the + notice in Exhibit A, the Executable Form of such Source Code Form, and + Modifications of such Source Code Form, in each case including portions + thereof. + +1.5. "Incompatible With Secondary Licenses" + means + + a. that the initial Contributor has attached the notice described in + Exhibit B to the Covered Software; or + + b. that the Covered Software was made available under the terms of + version 1.1 or earlier of the License, but not also under the terms of + a Secondary License. + +1.6. "Executable Form" + + means any form of the work other than Source Code Form. + +1.7. "Larger Work" + + means a work that combines Covered Software with other material, in a + separate file or files, that is not Covered Software. + +1.8. "License" + + means this document. + +1.9. "Licensable" + + means having the right to grant, to the maximum extent possible, whether + at the time of the initial grant or subsequently, any and all of the + rights conveyed by this License. + +1.10. "Modifications" + + means any of the following: + + a. any file in Source Code Form that results from an addition to, + deletion from, or modification of the contents of Covered Software; or + + b. any new file in Source Code Form that contains any Covered Software. + +1.11. "Patent Claims" of a Contributor + + means any patent claim(s), including without limitation, method, + process, and apparatus claims, in any patent Licensable by such + Contributor that would be infringed, but for the grant of the License, + by the making, using, selling, offering for sale, having made, import, + or transfer of either its Contributions or its Contributor Version. + +1.12. "Secondary License" + + means either the GNU General Public License, Version 2.0, the GNU Lesser + General Public License, Version 2.1, the GNU Affero General Public + License, Version 3.0, or any later versions of those licenses. + +1.13. "Source Code Form" + + means the form of the work preferred for making modifications. + +1.14. "You" (or "Your") + + means an individual or a legal entity exercising rights under this + License. For legal entities, "You" includes any entity that controls, is + controlled by, or is under common control with You. For purposes of this + definition, "control" means (a) the power, direct or indirect, to cause + the direction or management of such entity, whether by contract or + otherwise, or (b) ownership of more than fifty percent (50%) of the + outstanding shares or beneficial ownership of such entity. + + +2. License Grants and Conditions + +2.1. Grants + + Each Contributor hereby grants You a world-wide, royalty-free, + non-exclusive license: + + a. under intellectual property rights (other than patent or trademark) + Licensable by such Contributor to use, reproduce, make available, + modify, display, perform, distribute, and otherwise exploit its + Contributions, either on an unmodified basis, with Modifications, or + as part of a Larger Work; and + + b. under Patent Claims of such Contributor to make, use, sell, offer for + sale, have made, import, and otherwise transfer either its + Contributions or its Contributor Version. + +2.2. Effective Date + + The licenses granted in Section 2.1 with respect to any Contribution + become effective for each Contribution on the date the Contributor first + distributes such Contribution. + +2.3. Limitations on Grant Scope + + The licenses granted in this Section 2 are the only rights granted under + this License. No additional rights or licenses will be implied from the + distribution or licensing of Covered Software under this License. + Notwithstanding Section 2.1(b) above, no patent license is granted by a + Contributor: + + a. for any code that a Contributor has removed from Covered Software; or + + b. for infringements caused by: (i) Your and any other third party's + modifications of Covered Software, or (ii) the combination of its + Contributions with other software (except as part of its Contributor + Version); or + + c. under Patent Claims infringed by Covered Software in the absence of + its Contributions. + + This License does not grant any rights in the trademarks, service marks, + or logos of any Contributor (except as may be necessary to comply with + the notice requirements in Section 3.4). + +2.4. Subsequent Licenses + + No Contributor makes additional grants as a result of Your choice to + distribute the Covered Software under a subsequent version of this + License (see Section 10.2) or under the terms of a Secondary License (if + permitted under the terms of Section 3.3). + +2.5. Representation + + Each Contributor represents that the Contributor believes its + Contributions are its original creation(s) or it has sufficient rights to + grant the rights to its Contributions conveyed by this License. + +2.6. Fair Use + + This License is not intended to limit any rights You have under + applicable copyright doctrines of fair use, fair dealing, or other + equivalents. + +2.7. Conditions + + Sections 3.1, 3.2, 3.3, and 3.4 are conditions of the licenses granted in + Section 2.1. + + +3. Responsibilities + +3.1. Distribution of Source Form + + All distribution of Covered Software in Source Code Form, including any + Modifications that You create or to which You contribute, must be under + the terms of this License. You must inform recipients that the Source + Code Form of the Covered Software is governed by the terms of this + License, and how they can obtain a copy of this License. You may not + attempt to alter or restrict the recipients' rights in the Source Code + Form. + +3.2. Distribution of Executable Form + + If You distribute Covered Software in Executable Form then: + + a. such Covered Software must also be made available in Source Code Form, + as described in Section 3.1, and You must inform recipients of the + Executable Form how they can obtain a copy of such Source Code Form by + reasonable means in a timely manner, at a charge no more than the cost + of distribution to the recipient; and + + b. You may distribute such Executable Form under the terms of this + License, or sublicense it under different terms, provided that the + license for the Executable Form does not attempt to limit or alter the + recipients' rights in the Source Code Form under this License. + +3.3. Distribution of a Larger Work + + You may create and distribute a Larger Work under terms of Your choice, + provided that You also comply with the requirements of this License for + the Covered Software. If the Larger Work is a combination of Covered + Software with a work governed by one or more Secondary Licenses, and the + Covered Software is not Incompatible With Secondary Licenses, this + License permits You to additionally distribute such Covered Software + under the terms of such Secondary License(s), so that the recipient of + the Larger Work may, at their option, further distribute the Covered + Software under the terms of either this License or such Secondary + License(s). + +3.4. Notices + + You may not remove or alter the substance of any license notices + (including copyright notices, patent notices, disclaimers of warranty, or + limitations of liability) contained within the Source Code Form of the + Covered Software, except that You may alter any license notices to the + extent required to remedy known factual inaccuracies. + +3.5. Application of Additional Terms + + You may choose to offer, and to charge a fee for, warranty, support, + indemnity or liability obligations to one or more recipients of Covered + Software. However, You may do so only on Your own behalf, and not on + behalf of any Contributor. You must make it absolutely clear that any + such warranty, support, indemnity, or liability obligation is offered by + You alone, and You hereby agree to indemnify every Contributor for any + liability incurred by such Contributor as a result of warranty, support, + indemnity or liability terms You offer. You may include additional + disclaimers of warranty and limitations of liability specific to any + jurisdiction. + +4. Inability to Comply Due to Statute or Regulation + + If it is impossible for You to comply with any of the terms of this License + with respect to some or all of the Covered Software due to statute, + judicial order, or regulation then You must: (a) comply with the terms of + this License to the maximum extent possible; and (b) describe the + limitations and the code they affect. Such description must be placed in a + text file included with all distributions of the Covered Software under + this License. Except to the extent prohibited by statute or regulation, + such description must be sufficiently detailed for a recipient of ordinary + skill to be able to understand it. + +5. Termination + +5.1. The rights granted under this License will terminate automatically if You + fail to comply with any of its terms. However, if You become compliant, + then the rights granted under this License from a particular Contributor + are reinstated (a) provisionally, unless and until such Contributor + explicitly and finally terminates Your grants, and (b) on an ongoing + basis, if such Contributor fails to notify You of the non-compliance by + some reasonable means prior to 60 days after You have come back into + compliance. Moreover, Your grants from a particular Contributor are + reinstated on an ongoing basis if such Contributor notifies You of the + non-compliance by some reasonable means, this is the first time You have + received notice of non-compliance with this License from such + Contributor, and You become compliant prior to 30 days after Your receipt + of the notice. + +5.2. If You initiate litigation against any entity by asserting a patent + infringement claim (excluding declaratory judgment actions, + counter-claims, and cross-claims) alleging that a Contributor Version + directly or indirectly infringes any patent, then the rights granted to + You by any and all Contributors for the Covered Software under Section + 2.1 of this License shall terminate. + +5.3. In the event of termination under Sections 5.1 or 5.2 above, all end user + license agreements (excluding distributors and resellers) which have been + validly granted by You or Your distributors under this License prior to + termination shall survive termination. + +6. Disclaimer of Warranty + + Covered Software is provided under this License on an "as is" basis, + without warranty of any kind, either expressed, implied, or statutory, + including, without limitation, warranties that the Covered Software is free + of defects, merchantable, fit for a particular purpose or non-infringing. + The entire risk as to the quality and performance of the Covered Software + is with You. Should any Covered Software prove defective in any respect, + You (not any Contributor) assume the cost of any necessary servicing, + repair, or correction. This disclaimer of warranty constitutes an essential + part of this License. No use of any Covered Software is authorized under + this License except under this disclaimer. + +7. Limitation of Liability + + Under no circumstances and under no legal theory, whether tort (including + negligence), contract, or otherwise, shall any Contributor, or anyone who + distributes Covered Software as permitted above, be liable to You for any + direct, indirect, special, incidental, or consequential damages of any + character including, without limitation, damages for lost profits, loss of + goodwill, work stoppage, computer failure or malfunction, or any and all + other commercial damages or losses, even if such party shall have been + informed of the possibility of such damages. This limitation of liability + shall not apply to liability for death or personal injury resulting from + such party's negligence to the extent applicable law prohibits such + limitation. Some jurisdictions do not allow the exclusion or limitation of + incidental or consequential damages, so this exclusion and limitation may + not apply to You. + +8. Litigation + + Any litigation relating to this License may be brought only in the courts + of a jurisdiction where the defendant maintains its principal place of + business and such litigation shall be governed by laws of that + jurisdiction, without reference to its conflict-of-law provisions. Nothing + in this Section shall prevent a party's ability to bring cross-claims or + counter-claims. + +9. Miscellaneous + + This License represents the complete agreement concerning the subject + matter hereof. If any provision of this License is held to be + unenforceable, such provision shall be reformed only to the extent + necessary to make it enforceable. Any law or regulation which provides that + the language of a contract shall be construed against the drafter shall not + be used to construe this License against a Contributor. + + +10. Versions of the License + +10.1. New Versions + + Mozilla Foundation is the license steward. Except as provided in Section + 10.3, no one other than the license steward has the right to modify or + publish new versions of this License. Each version will be given a + distinguishing version number. + +10.2. Effect of New Versions + + You may distribute the Covered Software under the terms of the version + of the License under which You originally received the Covered Software, + or under the terms of any subsequent version published by the license + steward. + +10.3. Modified Versions + + If you create software not governed by this License, and you want to + create a new license for such software, you may create and use a + modified version of this License if you rename the license and remove + any references to the name of the license steward (except to note that + such modified license differs from this License). + +10.4. Distributing Source Code Form that is Incompatible With Secondary + Licenses If You choose to distribute Source Code Form that is + Incompatible With Secondary Licenses under the terms of this version of + the License, the notice described in Exhibit B of this License must be + attached. + +Exhibit A - Source Code Form License Notice + + This Source Code Form is subject to the + terms of the Mozilla Public License, v. + 2.0. If a copy of the MPL was not + distributed with this file, You can + obtain one at + http://mozilla.org/MPL/2.0/. + +If it is not possible or desirable to put the notice in a particular file, +then You may include the notice in a location (such as a LICENSE file in a +relevant directory) where a recipient would be likely to look for such a +notice. + +You may add additional accurate notices of copyright ownership. + +Exhibit B - "Incompatible With Secondary Licenses" Notice + + This Source Code Form is "Incompatible + With Secondary Licenses", as defined by + the Mozilla Public License, v. 2.0. + diff --git a/vendor/github.com/hashicorp/vault/helper/compressutil/compress.go b/vendor/github.com/hashicorp/vault/helper/compressutil/compress.go new file mode 100644 index 00000000..31a2dcd6 --- /dev/null +++ b/vendor/github.com/hashicorp/vault/helper/compressutil/compress.go @@ -0,0 +1,191 @@ +package compressutil + +import ( + "bytes" + "compress/gzip" + "compress/lzw" + "fmt" + "io" + + "github.com/golang/snappy" +) + +const ( + // A byte value used as a canary prefix for the compressed information + // which is used to distinguish if a JSON input is compressed or not. + // The value of this constant should not be a first character of any + // valid JSON string. + + // Byte value used as canary when using Gzip format + CompressionCanaryGzip byte = 'G' + + // Byte value used as canary when using Lzw format + CompressionCanaryLzw byte = 'L' + + // Byte value used as canary when using Snappy format + CompressionCanarySnappy byte = 'S' + + CompressionTypeLzw = "lzw" + + CompressionTypeGzip = "gzip" + + CompressionTypeSnappy = "snappy" +) + +// SnappyReadCloser embeds the snappy reader which implements the io.Reader +// interface. The decompress procedure in this utility expectes an +// io.ReadCloser. This type implements the io.Closer interface to retain the +// generic way of decompression. +type SnappyReadCloser struct { + *snappy.Reader +} + +// Close is a noop method implemented only to satisfy the io.Closer interface +func (s *SnappyReadCloser) Close() error { + return nil +} + +// CompressionConfig is used to select a compression type to be performed by +// Compress and Decompress utilities. +// Supported types are: +// * CompressionTypeLzw +// * CompressionTypeGzip +// * CompressionTypeSnappy +// +// When using CompressionTypeGzip, the compression levels can also be chosen: +// * gzip.DefaultCompression +// * gzip.BestSpeed +// * gzip.BestCompression +type CompressionConfig struct { + // Type of the compression algorithm to be used + Type string + + // When using Gzip format, the compression level to employ + GzipCompressionLevel int +} + +// Compress places the canary byte in a buffer and uses the same buffer to fill +// in the compressed information of the given input. The configuration supports +// two type of compression: LZW and Gzip. When using Gzip compression format, +// if GzipCompressionLevel is not specified, the 'gzip.DefaultCompression' will +// be assumed. +func Compress(data []byte, config *CompressionConfig) ([]byte, error) { + var buf bytes.Buffer + var writer io.WriteCloser + var err error + + if config == nil { + return nil, fmt.Errorf("config is nil") + } + + // Write the canary into the buffer and create writer to compress the + // input data based on the configured type + switch config.Type { + case CompressionTypeLzw: + buf.Write([]byte{CompressionCanaryLzw}) + + writer = lzw.NewWriter(&buf, lzw.LSB, 8) + case CompressionTypeGzip: + buf.Write([]byte{CompressionCanaryGzip}) + + switch { + case config.GzipCompressionLevel == gzip.BestCompression, + config.GzipCompressionLevel == gzip.BestSpeed, + config.GzipCompressionLevel == gzip.DefaultCompression: + // These are valid compression levels + default: + // If compression level is set to NoCompression or to + // any invalid value, fallback to Defaultcompression + config.GzipCompressionLevel = gzip.DefaultCompression + } + writer, err = gzip.NewWriterLevel(&buf, config.GzipCompressionLevel) + case CompressionTypeSnappy: + buf.Write([]byte{CompressionCanarySnappy}) + writer = snappy.NewBufferedWriter(&buf) + default: + return nil, fmt.Errorf("unsupported compression type") + } + + if err != nil { + return nil, fmt.Errorf("failed to create a compression writer; err: %v", err) + } + + if writer == nil { + return nil, fmt.Errorf("failed to create a compression writer") + } + + // Compress the input and place it in the same buffer containing the + // canary byte. + if _, err = writer.Write(data); err != nil { + return nil, fmt.Errorf("failed to compress input data; err: %v", err) + } + + // Close the io.WriteCloser + if err = writer.Close(); err != nil { + return nil, err + } + + // Return the compressed bytes with canary byte at the start + return buf.Bytes(), nil +} + +// Decompress checks if the first byte in the input matches the canary byte. +// If the first byte is a canary byte, then the input past the canary byte +// will be decompressed using the method specified in the given configuration. +// If the first byte isn't a canary byte, then the utility returns a boolean +// value indicating that the input was not compressed. +func Decompress(data []byte) ([]byte, bool, error) { + var err error + var reader io.ReadCloser + if data == nil || len(data) == 0 { + return nil, false, fmt.Errorf("'data' being decompressed is empty") + } + + switch { + // If the first byte matches the canary byte, remove the canary + // byte and try to decompress the data that is after the canary. + case data[0] == CompressionCanaryGzip: + if len(data) < 2 { + return nil, false, fmt.Errorf("invalid 'data' after the canary") + } + data = data[1:] + reader, err = gzip.NewReader(bytes.NewReader(data)) + case data[0] == CompressionCanaryLzw: + if len(data) < 2 { + return nil, false, fmt.Errorf("invalid 'data' after the canary") + } + data = data[1:] + reader = lzw.NewReader(bytes.NewReader(data), lzw.LSB, 8) + + case data[0] == CompressionCanarySnappy: + if len(data) < 2 { + return nil, false, fmt.Errorf("invalid 'data' after the canary") + } + data = data[1:] + reader = &SnappyReadCloser{ + Reader: snappy.NewReader(bytes.NewReader(data)), + } + default: + // If the first byte doesn't match the canary byte, it means + // that the content was not compressed at all. Indicate the + // caller that the input was not compressed. + return nil, true, nil + } + if err != nil { + return nil, false, fmt.Errorf("failed to create a compression reader; err: %v", err) + } + if reader == nil { + return nil, false, fmt.Errorf("failed to create a compression reader") + } + + // Close the io.ReadCloser + defer reader.Close() + + // Read all the compressed data into a buffer + var buf bytes.Buffer + if _, err = io.Copy(&buf, reader); err != nil { + return nil, false, err + } + + return buf.Bytes(), false, nil +} diff --git a/vendor/github.com/hashicorp/vault/helper/jsonutil/json.go b/vendor/github.com/hashicorp/vault/helper/jsonutil/json.go new file mode 100644 index 00000000..a96745be --- /dev/null +++ b/vendor/github.com/hashicorp/vault/helper/jsonutil/json.go @@ -0,0 +1,99 @@ +package jsonutil + +import ( + "bytes" + "compress/gzip" + "encoding/json" + "fmt" + "io" + + "github.com/hashicorp/vault/helper/compressutil" +) + +// Encodes/Marshals the given object into JSON +func EncodeJSON(in interface{}) ([]byte, error) { + if in == nil { + return nil, fmt.Errorf("input for encoding is nil") + } + var buf bytes.Buffer + enc := json.NewEncoder(&buf) + if err := enc.Encode(in); err != nil { + return nil, err + } + return buf.Bytes(), nil +} + +// EncodeJSONAndCompress encodes the given input into JSON and compresses the +// encoded value (using Gzip format BestCompression level, by default). A +// canary byte is placed at the beginning of the returned bytes for the logic +// in decompression method to identify compressed input. +func EncodeJSONAndCompress(in interface{}, config *compressutil.CompressionConfig) ([]byte, error) { + if in == nil { + return nil, fmt.Errorf("input for encoding is nil") + } + + // First JSON encode the given input + encodedBytes, err := EncodeJSON(in) + if err != nil { + return nil, err + } + + if config == nil { + config = &compressutil.CompressionConfig{ + Type: compressutil.CompressionTypeGzip, + GzipCompressionLevel: gzip.BestCompression, + } + } + + return compressutil.Compress(encodedBytes, config) +} + +// DecodeJSON tries to decompress the given data. The call to decompress, fails +// if the content was not compressed in the first place, which is identified by +// a canary byte before the compressed data. If the data is not compressed, it +// is JSON decoded directly. Otherwise the decompressed data will be JSON +// decoded. +func DecodeJSON(data []byte, out interface{}) error { + if data == nil || len(data) == 0 { + return fmt.Errorf("'data' being decoded is nil") + } + if out == nil { + return fmt.Errorf("output parameter 'out' is nil") + } + + // Decompress the data if it was compressed in the first place + decompressedBytes, uncompressed, err := compressutil.Decompress(data) + if err != nil { + return fmt.Errorf("failed to decompress JSON: err: %v", err) + } + if !uncompressed && (decompressedBytes == nil || len(decompressedBytes) == 0) { + return fmt.Errorf("decompressed data being decoded is invalid") + } + + // If the input supplied failed to contain the compression canary, it + // will be notified by the compression utility. Decode the decompressed + // input. + if !uncompressed { + data = decompressedBytes + } + + return DecodeJSONFromReader(bytes.NewReader(data), out) +} + +// Decodes/Unmarshals the given io.Reader pointing to a JSON, into a desired object +func DecodeJSONFromReader(r io.Reader, out interface{}) error { + if r == nil { + return fmt.Errorf("'io.Reader' being decoded is nil") + } + if out == nil { + return fmt.Errorf("output parameter 'out' is nil") + } + + dec := json.NewDecoder(r) + + // While decoding JSON values, intepret the integer values as `json.Number`s instead of `float64`. + dec.UseNumber() + + // Since 'out' is an interface representing a pointer, pass it to the decoder without an '&' + return dec.Decode(out) +} diff --git a/vendor/github.com/hashicorp/vault/helper/pgpkeys/encrypt_decrypt.go b/vendor/github.com/hashicorp/vault/helper/pgpkeys/encrypt_decrypt.go new file mode 100644 index 00000000..d8b7f605 --- /dev/null +++ b/vendor/github.com/hashicorp/vault/helper/pgpkeys/encrypt_decrypt.go @@ -0,0 +1,117 @@ +package pgpkeys + +import ( + "bytes" + "encoding/base64" + "fmt" + + "github.com/keybase/go-crypto/openpgp" + "github.com/keybase/go-crypto/openpgp/packet" +) + +// EncryptShares takes an ordered set of byte slices to encrypt and the +// corresponding base64-encoded public keys to encrypt them with, encrypts each +// byte slice with the corresponding public key. +// +// Note: There is no corresponding test function; this functionality is +// thoroughly tested in the init and rekey command unit tests +func EncryptShares(input [][]byte, pgpKeys []string) ([]string, [][]byte, error) { + if len(input) != len(pgpKeys) { + return nil, nil, fmt.Errorf("Mismatch between number items to encrypt and number of PGP keys") + } + encryptedShares := make([][]byte, 0, len(pgpKeys)) + entities, err := GetEntities(pgpKeys) + if err != nil { + return nil, nil, err + } + for i, entity := range entities { + ctBuf := bytes.NewBuffer(nil) + pt, err := openpgp.Encrypt(ctBuf, []*openpgp.Entity{entity}, nil, nil, nil) + if err != nil { + return nil, nil, fmt.Errorf("Error setting up encryption for PGP message: %s", err) + } + _, err = pt.Write(input[i]) + if err != nil { + return nil, nil, fmt.Errorf("Error encrypting PGP message: %s", err) + } + pt.Close() + encryptedShares = append(encryptedShares, ctBuf.Bytes()) + } + + fingerprints, err := GetFingerprints(nil, entities) + if err != nil { + return nil, nil, err + } + + return fingerprints, encryptedShares, nil +} + +// GetFingerprints takes in a list of openpgp Entities and returns the +// fingerprints. If entities is nil, it will instead parse both entities and +// fingerprints from the pgpKeys string slice. +func GetFingerprints(pgpKeys []string, entities []*openpgp.Entity) ([]string, error) { + if entities == nil { + var err error + entities, err = GetEntities(pgpKeys) + + if err != nil { + return nil, err + } + } + ret := make([]string, 0, len(entities)) + for _, entity := range entities { + ret = append(ret, fmt.Sprintf("%x", entity.PrimaryKey.Fingerprint)) + } + return ret, nil +} + +// GetEntities takes in a string array of base64-encoded PGP keys and returns +// the openpgp Entities +func GetEntities(pgpKeys []string) ([]*openpgp.Entity, error) { + ret := make([]*openpgp.Entity, 0, len(pgpKeys)) + for _, keystring := range pgpKeys { + data, err := base64.StdEncoding.DecodeString(keystring) + if err != nil { + return nil, fmt.Errorf("Error decoding given PGP key: %s", err) + } + entity, err := openpgp.ReadEntity(packet.NewReader(bytes.NewBuffer(data))) + if err != nil { + return nil, fmt.Errorf("Error parsing given PGP key: %s", err) + } + ret = append(ret, entity) + } + return ret, nil +} + +// DecryptBytes takes in base64-encoded encrypted bytes and the base64-encoded +// private key and decrypts it. A bytes.Buffer is returned to allow the caller +// to do useful thing with it (get it as a []byte, get it as a string, use it +// as an io.Reader, etc), and also because this function doesn't know if what +// comes out is binary data or a string, so let the caller decide. +func DecryptBytes(encodedCrypt, privKey string) (*bytes.Buffer, error) { + privKeyBytes, err := base64.StdEncoding.DecodeString(privKey) + if err != nil { + return nil, fmt.Errorf("Error decoding base64 private key: %s", err) + } + + cryptBytes, err := base64.StdEncoding.DecodeString(encodedCrypt) + if err != nil { + return nil, fmt.Errorf("Error decoding base64 crypted bytes: %s", err) + } + + entity, err := openpgp.ReadEntity(packet.NewReader(bytes.NewBuffer(privKeyBytes))) + if err != nil { + return nil, fmt.Errorf("Error parsing private key: %s", err) + } + + entityList := &openpgp.EntityList{entity} + md, err := openpgp.ReadMessage(bytes.NewBuffer(cryptBytes), entityList, nil, nil) + if err != nil { + return nil, fmt.Errorf("Error decrypting the messages: %s", err) + } + + ptBuf := bytes.NewBuffer(nil) + ptBuf.ReadFrom(md.UnverifiedBody) + + return ptBuf, nil +} diff --git a/vendor/github.com/hashicorp/vault/helper/pgpkeys/flag.go b/vendor/github.com/hashicorp/vault/helper/pgpkeys/flag.go new file mode 100644 index 00000000..ccfc64b8 --- /dev/null +++ b/vendor/github.com/hashicorp/vault/helper/pgpkeys/flag.go @@ -0,0 +1,97 @@ +package pgpkeys + +import ( + "bytes" + "encoding/base64" + "errors" + "fmt" + "os" + "strings" + + "github.com/keybase/go-crypto/openpgp" +) + +// PGPPubKeyFiles implements the flag.Value interface and allows +// parsing and reading a list of pgp public key files +type PubKeyFilesFlag []string + +func (p *PubKeyFilesFlag) String() string { + return fmt.Sprint(*p) +} + +func (p *PubKeyFilesFlag) Set(value string) error { + if len(*p) > 0 { + return errors.New("pgp-keys can only be specified once") + } + + splitValues := strings.Split(value, ",") + + keybaseMap, err := FetchKeybasePubkeys(splitValues) + if err != nil { + return err + } + + // Now go through the actual flag, and substitute in resolved keybase + // entries where appropriate + for _, keyfile := range splitValues { + if strings.HasPrefix(keyfile, kbPrefix) { + key := keybaseMap[keyfile] + if key == "" { + return fmt.Errorf("key for keybase user %s was not found in the map", strings.TrimPrefix(keyfile, kbPrefix)) + } + *p = append(*p, key) + continue + } + + pgpStr, err := ReadPGPFile(keyfile) + if err != nil { + return err + } + + *p = append(*p, pgpStr) + } + return nil +} + +func ReadPGPFile(path string) (string, error) { + if path[0] == '@' { + path = path[1:] + } + f, err := os.Open(path) + if err != nil { + return "", err + } + defer f.Close() + buf := bytes.NewBuffer(nil) + _, err = buf.ReadFrom(f) + if err != nil { + return "", err + } + + // First parse as an armored keyring file, if that doesn't work, treat it as a straight binary/b64 string + keyReader := bytes.NewReader(buf.Bytes()) + entityList, err := openpgp.ReadArmoredKeyRing(keyReader) + if err == nil { + if len(entityList) != 1 { + return "", fmt.Errorf("more than one key found in file %s", path) + } + if entityList[0] == nil { + return "", fmt.Errorf("primary key was nil for file %s", path) + } + + serializedEntity := bytes.NewBuffer(nil) + err = entityList[0].Serialize(serializedEntity) + if err != nil { + return "", fmt.Errorf("error serializing entity for file %s: %s", path, err) + } + + return base64.StdEncoding.EncodeToString(serializedEntity.Bytes()), nil + } + + _, err = base64.StdEncoding.DecodeString(buf.String()) + if err == nil { + return buf.String(), nil + } + return base64.StdEncoding.EncodeToString(buf.Bytes()), nil + +} diff --git a/vendor/github.com/hashicorp/vault/helper/pgpkeys/keybase.go b/vendor/github.com/hashicorp/vault/helper/pgpkeys/keybase.go new file mode 100644 index 00000000..5c14cbce --- /dev/null +++ b/vendor/github.com/hashicorp/vault/helper/pgpkeys/keybase.go @@ -0,0 +1,116 @@ +package pgpkeys + +import ( + "bytes" + "encoding/base64" + "fmt" + "strings" + + "github.com/hashicorp/go-cleanhttp" + "github.com/hashicorp/vault/helper/jsonutil" + "github.com/keybase/go-crypto/openpgp" +) + +const ( + kbPrefix = "keybase:" +) + +// FetchKeybasePubkeys fetches public keys from Keybase given a set of +// usernames, which are derived from correctly formatted input entries. It +// doesn't use their client code due to both the API and the fact that it is +// considered alpha and probably best not to rely on it. The keys are returned +// as base64-encoded strings. +func FetchKeybasePubkeys(input []string) (map[string]string, error) { + client := cleanhttp.DefaultClient() + if client == nil { + return nil, fmt.Errorf("unable to create an http client") + } + + if len(input) == 0 { + return nil, nil + } + + usernames := make([]string, 0, len(input)) + for _, v := range input { + if strings.HasPrefix(v, kbPrefix) { + usernames = append(usernames, strings.TrimPrefix(v, kbPrefix)) + } + } + + if len(usernames) == 0 { + return nil, nil + } + + ret := make(map[string]string, len(usernames)) + url := fmt.Sprintf("https://keybase.io/_/api/1.0/user/lookup.json?usernames=%s&fields=public_keys", strings.Join(usernames, ",")) + resp, err := client.Get(url) + if err != nil { + return nil, err + } + defer resp.Body.Close() + + type publicKeys struct { + Primary struct { + Bundle string + } + } + + type them struct { + publicKeys `json:"public_keys"` + } + + type kbResp struct { + Status struct { + Name string + } + Them []them + } + + out := &kbResp{ + Them: []them{}, + } + + if err := jsonutil.DecodeJSONFromReader(resp.Body, out); err != nil { + return nil, err + } + + if out.Status.Name != "OK" { + return nil, fmt.Errorf("got non-OK response: %s", out.Status.Name) + } + + missingNames := make([]string, 0, len(usernames)) + var keyReader *bytes.Reader + serializedEntity := bytes.NewBuffer(nil) + for i, themVal := range out.Them { + if themVal.Primary.Bundle == "" { + missingNames = append(missingNames, usernames[i]) + continue + } + keyReader = bytes.NewReader([]byte(themVal.Primary.Bundle)) + entityList, err := openpgp.ReadArmoredKeyRing(keyReader) + if err != nil { + return nil, err + } + if len(entityList) != 1 { + return nil, fmt.Errorf("primary key could not be parsed for user %s", usernames[i]) + } + if entityList[0] == nil { + return nil, fmt.Errorf("primary key was nil for user %s", usernames[i]) + } + + serializedEntity.Reset() + err = entityList[0].Serialize(serializedEntity) + if err != nil { + return nil, fmt.Errorf("error serializing entity for user %s: %s", usernames[i], err) + } + + // The API returns values in the same ordering requested, so this should properly match + ret[kbPrefix+usernames[i]] = base64.StdEncoding.EncodeToString(serializedEntity.Bytes()) + } + + if len(missingNames) > 0 { + return nil, fmt.Errorf("unable to fetch keys for user(s) %s from keybase", strings.Join(missingNames, ",")) + } + + return ret, nil +} diff --git a/vendor/github.com/hashicorp/vault/helper/pgpkeys/test_keys.go b/vendor/github.com/hashicorp/vault/helper/pgpkeys/test_keys.go new file mode 100644 index 00000000..c10a9055 --- /dev/null +++ b/vendor/github.com/hashicorp/vault/helper/pgpkeys/test_keys.go @@ -0,0 +1,271 @@ +package pgpkeys + +const ( + TestPrivKey1 = `lQOYBFXbjPUBCADjNjCUQwfxKL+RR2GA6pv/1K+zJZ8UWIF9S0lk7cVIEfJiprzzwiMwBS5cD0da +rGin1FHvIWOZxujA7oW0O2TUuatqI3aAYDTfRYurh6iKLC+VS+F7H+/mhfFvKmgr0Y5kDCF1j0T/ +063QZ84IRGucR/X43IY7kAtmxGXH0dYOCzOe5UBX1fTn3mXGe2ImCDWBH7gOViynXmb6XNvXkP0f +sF5St9jhO7mbZU9EFkv9O3t3EaURfHopsCVDOlCkFCw5ArY+DUORHRzoMX0PnkyQb5OzibkChzpg +8hQssKeVGpuskTdz5Q7PtdW71jXd4fFVzoNH8fYwRpziD2xNvi6HABEBAAEAB/wL+KX0mdeISEpX +oDgt766Key1Kthe8nbEs5dOXIsP7OR7ZPcnE2hy6gftgVFnBGEZnWVN70vmJd6Z5y9d1mI+GecXj +UL0EpI0EmohyYDJsHUnght/5ecRNFA+VeNmGPYNQGCeHJyZOiFunGGENpHU7BbubAht8delz37Mx +JQgvMyR6AKvg8HKBoQeqV1uMWNJE/vKwV/z1dh1sjK/GFxu05Qaq0GTfAjVLuFOyJTS95yq6gblD +jUdbHLp7tBeqIKo9voWCJF5mGOlq3973vVoWETy9b0YYPCE/M7fXmK9dJITHqkROLMW6TgcFeIw4 +yL5KOBCHk+QGPSvyQN7R7Fd5BADwuT1HZmvg7Y9GjarKXDjxdNemUiHtba2rUzfH6uNmKNQvwQek +nma5palNUJ4/dz1aPB21FUBXJF5yWwXEdApl+lIDU0J5m4UD26rqEVRq9Kx3GsX+yfcwObkrSzW6 +kmnQSB5KI0fIuegMTM+Jxo3pB/mIRwDTMmk+vfzIGyW+7QQA8aFwFLMdKdfLgSGbl5Z6etmOAVQ2 +Oe2ebegU9z/ewi/Rdt2s9yQiAdGVM8+q15Saz8a+kyS/l1CjNPzr3VpYx1OdZ3gb7i2xoy9GdMYR +ZpTq3TuST95kx/9DqA97JrP23G47U0vwF/cg8ixCYF8Fz5dG4DEsxgMwKqhGdW58wMMD/iytkfMk +Vk6Z958Rpy7lhlC6L3zpO38767bSeZ8gRRi/NMFVOSGYepKFarnfxcTiNa+EoSVA6hUo1N64nALE +sJBpyOoTfKIpz7WwTF1+WogkiYrfM6lHon1+3qlziAcRW0IohM3g2C1i3GWdON4Cl8/PDO3R0E52 +N6iG/ctNNeMiPe60EFZhdWx0IFRlc3QgS2V5IDGJATgEEwECACIFAlXbjPUCGy8GCwkIBwMCBhUI +AgkKCwQWAgMBAh4BAheAAAoJEOfLr44BHbeTo+sH/i7bapIgPnZsJ81hmxPj4W12uvunksGJiC7d +4hIHsG7kmJRTJfjECi+AuTGeDwBy84TDcRaOB6e79fj65Fg6HgSahDUtKJbGxj/lWzmaBuTzlN3C +Ee8cMwIPqPT2kajJVdOyrvkyuFOdPFOEA7bdCH0MqgIdM2SdF8t40k/ATfuD2K1ZmumJ508I3gF3 +9jgTnPzD4C8quswrMQ3bzfvKC3klXRlBC0yoArn+0QA3cf2B9T4zJ2qnvgotVbeK/b1OJRNj6Poe +o+SsWNc/A5mw7lGScnDgL3yfwCm1gQXaQKfOt5x+7GqhWDw10q+bJpJlI10FfzAnhMF9etSqSeUR +BRWdA5gEVduM9QEIAL53hJ5bZJ7oEDCnaY+SCzt9QsAfnFTAnZJQrvkvusJzrTQ088eUQmAjvxkf +Rqnv981fFwGnh2+I1Ktm698UAZS9Jt8yjak9wWUICKQO5QUt5k8cHwldQXNXVXFa+TpQWQR5yW1a +9okjh5o/3d4cBt1yZPUJJyLKY43Wvptb6EuEsScO2DnRkh5wSMDQ7dTooddJCmaq3LTjOleRFQbu +9ij386Do6jzK69mJU56TfdcydkxkWF5NZLGnED3lq+hQNbe+8UI5tD2oP/3r5tXKgMy1R/XPvR/z +bfwvx4FAKFOP01awLq4P3d/2xOkMu4Lu9p315E87DOleYwxk+FoTqXEAEQEAAQAH+wVyQXaNwnjQ +xfW+M8SJNo0C7e+0d7HsuBTA/d/eP4bj6+X8RaRFVwiMvSAoxsqBNCLJP00qzzKfRQWJseD1H35z +UjM7rNVUEL2k1yppyp61S0qj0TdhVUfJDYZqRYonVgRMvzfDTB1ryKrefKenQYL/jGd9VYMnKmWZ +6GVk4WWXXx61iOt2HNcmSXKetMM1Mg67woPZkA3fJaXZ+zW0zMu4lTSB7yl3+vLGIFYILkCFnREr +drQ+pmIMwozUAt+pBq8dylnkHh6g/FtRfWmLIMDqM1NlyuHRp3dyLDFdTA93osLG0QJblfX54W34 +byX7a4HASelGi3nPjjOAsTFDkuEEANV2viaWk1CV4ryDrXGmy4Xo32Md+laGPRcVfbJ0mjZjhQsO +gWC1tjMs1qZMPhcrKIBCjjdAcAIrGV9h3CXc0uGuez4XxLO+TPBKaS0B8rKhnKph1YZuf+HrOhzS +astDnOjNIT+qucCL/qSbdYpj9of3yY61S59WphPOBjoVM3BFBADka6ZCk81gx8jA2E1e9UqQDmdM +FZaVA1E7++kqVSFRDJGnq+5GrBTwCJ+sevi+Rvf8Nx4AXvpCdtMBPX9RogsUFcR0pMrKBrgRo/Vg +EpuodY2Ef1VtqXR24OxtRf1UwvHKydIsU05rzMAy5uGgQvTzRTXxZFLGUY31wjWqmo9VPQP+PnwA +K83EV2kk2bsXwZ9MXg05iXqGQYR4bEc/12v04BtaNaDS53hBDO4JIa3Bnz+5oUoYhb8FgezUKA9I +n6RdKTTP1BLAu8titeozpNF07V++dPiSE2wrIVsaNHL1pUwW0ql50titVwe+EglWiCKPtJBcCPUA +3oepSPchiDjPqrNCYIkCPgQYAQIACQUCVduM9QIbLgEpCRDny6+OAR23k8BdIAQZAQIABgUCVduM +9QAKCRAID0JGyHtSGmqYB/4m4rJbbWa7dBJ8VqRU7ZKnNRDR9CVhEGipBmpDGRYulEimOPzLUX/Z +XZmTZzgemeXLBaJJlWnopVUWuAsyjQuZAfdd8nHkGRHG0/DGum0l4sKTta3OPGHNC1z1dAcQ1RCr +9bTD3PxjLBczdGqhzw71trkQRBRdtPiUchltPMIyjUHqVJ0xmg0hPqFic0fICsr0YwKoz3h9+QEc +ZHvsjSZjgydKvfLYcm+4DDMCCqcHuJrbXJKUWmJcXR0y/+HQONGrGJ5xWdO+6eJioPn2jVMnXCm4 +EKc7fcLFrz/LKmJ8seXhxjM3EdFtylBGCrx3xdK0f+JDNQaC/rhUb5V2XuX6VwoH/AtY+XsKVYRf +NIupLOUcf/srsm3IXT4SXWVomOc9hjGQiJ3rraIbADsc+6bCAr4XNZS7moViAAcIPXFv3m3WfUln +G/om78UjQqyVACRZqqAGmuPq+TSkRUCpt9h+A39LQWkojHqyob3cyLgy6z9Q557O9uK3lQozbw2g +H9zC0RqnePl+rsWIUU/ga16fH6pWc1uJiEBt8UZGypQ/E56/343epmYAe0a87sHx8iDV+dNtDVKf +PRENiLOOc19MmS+phmUyrbHqI91c0pmysYcJZCD3a502X1gpjFbPZcRtiTmGnUKdOIu60YPNE4+h +7u2CfYyFPu3AlUaGNMBlvy6PEpU=` + + TestPrivKey2 = `lQOYBFXbkJEBCADKb1ZvlT14XrJa2rTOe5924LQr2PTZlRv+651TXy33yEhelZ+V4sMrELN8fKEG +Zy1kNixmbq3MCF/671k3LigHA7VrOaH9iiQgr6IIq2MeIkUYKZ27C992vQkYLjbYUG8+zl5h69S4 +0Ixm0yL0M54XOJ0gm+maEK1ZESKTUlDNkIS7l0jLZSYwfUeGXSEt6FWs8OgbyRTaHw4PDHrDEE9e +Q67K6IZ3YMhPOL4fVk4Jwrp5R/RwiklT+lNozWEyFVwPFH4MeQMs9nMbt+fWlTzEA7tI4acI9yDk +Cm1yN2R9rmY0UjODRiJw6z6sLV2T+Pf32n3MNSUOYczOjZa4VBwjABEBAAEAB/oCBqTIsxlUgLtz +HRpWW5MJ+93xvmVV0JHhRK/ygKghq+zpC6S+cn7dwrEj1JTPh+17lyemYQK+RMeiBEduoWNKuHUd +WX353w2411rrc/VuGTglzhd8Ir2BdJlPesCzw4JQnrWqcBqN52W+iwhnE7PWVhnvItWnx6APK5Se +q7dzFWy8Z8tNIHm0pBQbeyo6x2rHHSWkr2fs7V02qFQhii1ayFRMcgdOWSNX6CaZJuYhk/DyjApN +9pVhi3P1pNMpFeV0Pt8Gl1f/9o6/HpAYYEt/6vtVRhFUGgtNi95oc0oyzIJxliRvd6+Z236osigQ +QEBwj1ImRK8TKyWPlykiJWc5BADfldgOCA55o3Qz/z/oVE1mm+a3FmPPTQlHBXotNEsrWV2wmJHe +lNQPI6ZwMtLrBSg8PUpG2Rvao6XJ4ZBl/VcDwfcLgCnALPCcL0L0Z3vH3Sc9Ta/bQWJODG7uSaI1 +iVJ7ArKNtVzTqRQWK967mol9CCqh4A0jRrH0aVEFbrqQ/QQA58iEJaFhzFZjufjC9N8Isn3Ky7xu +h+dk001RNCb1GnNZcx4Ld2IB+uXyYjtg7dNaUhGgGuCBo9nax89bMsBzzUukx3SHq1pxopMg6Dm8 +ImBoIAicuQWgEkaP2T0rlwCozUalJZaG1gyrzkPhkeY7CglpJycHLHfY2MIb46c8+58D/iJ83Q5j +Y4x+sqW2QeUYFwqCcOW8Urg64UxEkgXZXiNMwTAJCaxp/Pz7cgeUDwgv+6CXEdnT1910+byzK9ha +V1Q/65+/JYuCeyHxcoAb4Wtpdl7GALGd/1G0UAmq47yrefEr/b00uS35i1qUUhOzo1NmEZch/bvF +kmJ+WtAHunZcOCu0EFZhdWx0IFRlc3QgS2V5IDKJATgEEwECACIFAlXbkJECGy8GCwkIBwMCBhUI +AgkKCwQWAgMBAh4BAheAAAoJEOuDLGfrXolXqz4H/28IuoRxGKoJ064YHjPkkpoddW6zdzzNfHip +ZnNfEUiTEls4qF1IB81M2xqfiXIFRIdO2kaLkRPFhO0hRxbtI6VuZYLgG3QCaXhxW6GyFa5zKABq +hb5ojexdnAYRswaHV201ZCclj9rnJN1PAg0Rz6MdX/w1euEWktQxWKo42oZKyx8oT9p6lrv5KRmG +kdrg8K8ARmRILjmwuBAgJM0eXBZHNGWXelk4YmOgnAAcZA6ZAo1G+8Pg6pKKP61ETewuCg3/u7N0 +vDttB+ZXqF88W9jAYlvdgbTtajNF5IDYDjTzWfeCaIB18F9gOzXq15SwWeDDI+CU9Nmq358IzXlx +k4edA5gEVduQkQEIAOjZV5tbpfIh5QefpIp2dpGMVfpgPj4RNc15CyFnb8y6dhCrdybkY9GveXJe +4F3GNYnSfB42cgxrfhizX3LakmZQ/SAg+YO5KxfCIN7Q9LPNeTgPsZZT6h8lVuXUxOFKXfRaR3/t +GF5xE3e5CoZRsHV/c92h3t1LdJNOnC5mUKIPO4zDxiw/C2T2q3rP1kmIMaOH724kEH5A+xcp1cBH +yt0tdHtIWuQv6joTJzujqViRhlCwQYzQSKpSBxwhBsorPvyinZI/ZXA4XXZc5RoMqV9rikedrb1r +ENO8JOuPu6tMS+znFu67skq2gFFZwCQWIjdHm+2ukE+PE580WAWudyMAEQEAAQAH/i7ndRPI+t0T +AdEu0dTIdyrrg3g7gd471kQtIVZZwTYSy2yhNY/Ciu72s3ab8QNCxY8dNL5bRk8FKjHslAoNSFdO +8iZSLiDgIHOZOcjYe6pqdgQaeTHodm1Otrn2SbB+K/3oX6W/y1xe18aSojGba/nHMj5PeJbIN9Pi +jmh0WMLD/0rmkTTxR7qQ5+kMV4O29xY4qjdYRD5O0adeZX0mNncmlmQ+rX9yxrtSgFROu1jwVtfP +hcNetifTTshJnTwND8hux5ECEadlIVBHypW28Hth9TRBXmddTmv7L7mdtUO6DybgkpWpw4k4LPsk +uZ6aY4wcGRp7EVfWGr9NHbq/n+0EAOlhDXIGdylkQsndjBMyhPsXZa5fFBmOyHjXj733195Jgr1v +ZjaIomrA9cvYrmN75oKrG1jJsMEl6HfC/ZPzEj6E51/p1PRdHP7CdUUA+DG8x4M3jn+e43psVuAR +a1XbN+8/bOa0ubt7ljVPjAEvWRSvU9dRaQz93w3fduAuM07dBAD/ayK3e0d6JMJMrU50lNOXQBgL +rFbg4rWzPO9BJQdhjOhmOZQiUa1Q+EV+s95yIUg1OAfaMP9KRIljr5RCdGNS6WoMNBAQOSrZpelf +jW4NpzphNfWDGVkUoPoskVtJz/nu9d860dGd3Al0kSmtUpMu5QKlo+sSxXUPbWLUn8V9/wP/ScCW +H+0gtL4R7SFazPeTIP+Cu5oR7A/DlFVLJKa3vo+atkhSvwxHGbg04vb/W4mKhGGVtMBtlhRmaWOe +PhUulU5FdaYsdlpN/Yd+hhgU6NHlyImPGVEHWD8c6CG8qoZfpR33j2sqshs4i/MtJZeBvl62vxPn +9bDN7KAjFNll9axAjIkCPgQYAQIACQUCVduQkQIbLgEpCRDrgyxn616JV8BdIAQZAQIABgUCVduQ +kQAKCRArYtevdF38xtzgB/4zVzozBpVOnagRkA7FDsHo36xX60Lik+ew0m28ueDDhnV3bXQsCvn/ +6wiCVWqLOTDeYCPlyTTpEMyk8zwdCICW6MgSkVHWcEDOrRqIrqm86rirjTGjJSgQe3l4CqJvkn6j +ybShYoBk1OZZV6vVv9hPTXXv9E6dLKoEW5YZBrrF+VC0w1iOIvaAQ+QXph20eV4KBIrp/bhG6Pdn +igKxuBZ79cdqDnXIzT9UiIa6LYpR0rbeg+7BmuZTTPS8t+41hIiKS+UZFdKa67eYENtyOmEMWOFC +LLRJGxkleukchiMJ70rknloZXsvJIweXBzSZ6m7mJQBgaig/L/dXyjv6+j2pNB4H/1trYUtJjXQK +HmqlgCmpCkHt3g7JoxWvglnDNmE6q3hIWuVIYQpnzZy1g05+X9Egwc1WVpBB02H7PkUZTfpaP/L6 +DLneMmSKPhZE3I+lPIPjwrxqh6xy5uQezcWkJTNKvPWF4FJzrVvx7XTPjfGvOB0UPEnjvtZTp5yO +hTeZK7DgIEtb/Wcrqs+iRArQKboM930ORSZhwvGK3F9V/gMDpIrvge5vDFsTEYQdw/2epIewH0L/ +FUb/6jBRcVEpGo9Ayg+Jnhq14GOGcd1y9oMZ48kYVLVBTA9tQ+82WE8Bch7uFPj4MFOMVRn1dc3q +dXlg3mimA+iK7tABQfG0RJ9YzWs=` + + TestPrivKey3 = `lQOXBFXbkiMBCACiHW4/VI2JkfvSEINddS7vE6wEu5e1leNQDaLUh6PrATQZS2a4Q6kRE6WlJumj +6wCeN753Cm93UGQl2Bi3USIEeArIZnPTcocrckOVXxtoLBNKXgqKvEsDXgfw8A+doSfXoDm/3Js4 +Wy3WsYKNR9LaPuJZHnpjsFAJhvRVyhH4UFD+1RTSSefq1mozPfDdMoZeZNEpfhwt3DuTJs7RqcTH +CgR2CqhEHnOOE5jJUljHKYLCglE2+8dth1bZlQi4xly/VHZzP3Bn7wKeolK/ROP6VZz/e0xq/BKy +resmxvlBWZ1zWwqGIrV9b0uwYvGrh2hOd5C5+5oGaA2MGcjxwaLBABEBAAEAB/dQbElFIa0VklZa +39ZLhtbBxACSWH3ql3EtRZaB2Mh4zSALbFyJDQfScOy8AZHmv66Ozxit9X9WsYr9OzcHujgl/2da +A3lybF6iLw1YDNaL11G6kuyn5sFP6lYGMRGOIWSik9oSVF6slo8m8ujRLdBsdMXVcElHKzCJiWmt +JZHEnUkl9X96fIPajMBfWjHHwcaeMOc77nvjwqy5wC4EY8TSVYzxeZHL7DADQ0EHBcThlmfizpCq +26LMVb6ju8STH7uDDFyKmhr/hC2vOkt+PKsvBCmW8/ESanO1zKPD9cvSsOWr2rZWNnkDRftqzOU5 +OCrI+3o9E74+toNb07bPntEEAMEStOzSvqZ6NKdh7EZYPA4mkkFC+EiHYIoinP1sd9V8O2Hq+dzx +yFHtWu0LmP6uWXk45vsP9y1UMJcEa33ew5JJa7zgucI772/BNvd/Oys/PqwIAl6uNIY8uYLgmn4L +1IPatp7vDiXzZSivPZd4yN4S4zCypZp9cnpO3qv8q7CtBADW87IA0TabdoxiN+m4XL7sYDRIfglr +MRPAlfrkAUaGDBx/t1xb6IaKk7giFdwHpTI6+g9XNkqKqogMe4Fp+nsd1xtfsNUBn6iKZavm5kXe +Lp9QgE+K6mvIreOTe2PKQqXqgPRG6+SRGatoKeY76fIpd8AxOJyWERxcq2lUHLn45QP/UXDTcYB7 +gzJtZrfpXN0GqQ0lYXMzbQfLnkUsu3mYzArfNy0otzEmKTkwmKclNY1/EJSzSdHfgmeA260a0nLK +64C0wPgSmOqw90qwi5odAYSjSFBapDbyGF86JpHrLxyEEpGoXanRPwWfbiWp19Nwg6nknA87AtaM +3+AHjbWzwCpHL7QQVmF1bHQgVGVzdCBLZXkgM4kBOAQTAQIAIgUCVduSIwIbLwYLCQgHAwIGFQgC +CQoLBBYCAwECHgECF4AACgkQ9HlLVvwtxt1aMQf/aaGoL1rRWTUjM6DEShXFhWpV29rEjSdNk5N+ +ZwVifgdCVD5IsSjI1Z7mO2SHHiTm4eKnHAofM6/TZgzXg1YLpu8rDYJARMsM8bgK/xgxSamGjm2c +wN220jOnwePIlG0drNTW5N6zb/K6qHoscJ6NUkjS5JPdGJuq7B0bdCM8/xSbG75gL34U5bYqK38B +DwmW4UMl2rf/BJfxV9hmsZ2Cat4TspgyiWEKTMZI+PugXKDDwuoqgm+320K4EqFkwG4y/WwHkKgk +hZ0+io5lzhTsvVd2p8q8VlH9GG5eA3WWQj0yqucsOmKQvcuT5y0vFY6NQJbyuioqgdlgEXtc+p0B ++Z0DmARV25IjAQgA49yN3hCBsuWoiTezoE9FHJXOCVOBR1/4jStQPJtoMl8mhtl3xTp7iGQ+9GhD +y0l5+fP+qcP/rfBq0BslhxVOZ7jQjdUoM6ZUZzJoPGIo/V2KwqpwQl3tdCIjvagCJeYQfTL7lTCc +4ySz+XBoAYMwZVGMcRcjp+JE8Wx9Ovzuq8wnelbU6I5dVJ7O4E1OWbIkLuytDX+fDEvfft6/oPXN +Bl3cm6FzEuQetQQss3DOG9xnvS+DrjmMCbPwR2a++ioQ8+geoqA/kB4cAI6xOb3ncoeGDHc1i4Y9 +T9Ggi+6Aq3girmfDtNYVOM8cZUXcZNCvLkJn8DNeIvnuFUSEO+a5PwARAQABAAf/TPd98CmRNdV/ +VUI8aYT9Kkervdi4DVzsfvrHcoFn88PSJrCkVTmI6qw526Kwa6VZD0YMmll7LszLt5nD1lorDrwN +rir3FmMzlVwge20IvXRwX4rkunYxtA2oFvL+LsEEhtXGx0ERbWRDapk+eGxQ15hxIO4Y/Cdg9E+a +CWfQUrTSnC6qMVfVYMGfnM1yNX3OWattEFfmxQas5XqQk/0FgjCZALixdanjN/r1tjp5/2MiSD8N +Wkemzsr6yPicnc3+BOZc5YOOnH8FqBvVHcDlSJI6pCOCEiO3Pq2QEk/1evONulbF116mLnQoGrpp +W77l+5O42VUpZfjROCPd5DYyMQQA492CFXZpDIJ2emB9/nK8X6IzdVRK3oof8btbSNnme5afIzhs +wR1ruX30O7ThfB+5ezpbgK1C988CWkr9SNSTy43omarafGig6/Y1RzdiITILuIGfbChoSpc70jXx +U0nzJ/1i9yZ/vDgP3EC2miRhlDcp5w0Bu0oMBlgG/1uhj0cEAP/+7aFGP0fo2MZPhyl5feHKWj4k +85XoAIpMBnzF6HTGU3ljAE56a+4sVw3bWB755DPhvpZvDkX60I9iIJxio8TK5ITdfjlLhxuskXyt +ycwWI/4J+soeq4meoxK9jxZJuDl/qvoGfyzNg1oy2OBehX8+6erW46kr6Z/MQutS3zJJBACmJHrK +VR40qD7a8KbvfuM3ruwlm5JqT/Ykq1gfKKxHjWDIUIeyBX/axGQvAGNYeuuQCzZ0+QsEWur3C4kN +U+Pb5K1WGyOKkhJzivSI56AG3d8TA/Q0JhqST6maY0fvUoahWSCcpd7MULa3n1zx5Wsvi8mkVtup +Js/IDi/kqneqM0XviQI+BBgBAgAJBQJV25IjAhsuASkJEPR5S1b8LcbdwF0gBBkBAgAGBQJV25Ij +AAoJEAUj/03Hcrkg84UIAKxn9nizYtwSgDnVNb5PnD5h6+Ui6r7ffYm2o0im4YhakbFTHIPI9PRh +BavRI5sE5Fg2vtE/x38jattoUrJoNoq9Gh9iv5PBfL3amEGjul0RRqYGl+ub+yv7YGAAHbHcdZen +4gx15VWGpB7y3hycWbdzV8h3EAPKIm5XmB7YyXmArnI3CoJA+HtTZGoL6WZWUwka9YichGfaZ/oD +umENg1l87Pp2RqvjLKHmv2tGCtnDzyv/IiWur9zopFQiCc8ysVgRq6CA5x5nzbv6MqRspYUS4e2I +LFbuREA3blR+caw9oX41IYzarW8IbgeIXJ3HqUyhczRKF/z5nDKtX/kHMCqlbAgAnfu0TALnwVuj +KeXLo4Y7OA9LTEqfORcw62q5OjSoQf/VsRSwGSefv3kGZk5N/igELluU3qpG/twZI/TSL6zGqXU2 +FOMlyMm1849TOB9b4B//4dHrjzPhztzowKMMUqeTxmSgYtFTshKN6eQ0XO+7ZuOXEmSKXS4kOUs9 +ttfzSiPNXUZL2D5nFU9H7rw3VAuXYVTrOx+Dfi6mYsscbxUbi8THODI2Q7B9Ni92DJE1OOe4+57o +fXZ9ln24I14bna/uVHd6hBwLEE6eLCCKkHxQnnZFZduXDHMK0a0OL8RYHfMtNSem4pyC5wDQui1u +KFIzGEPKVoBF9U7VBXpyxpsz+A==` + + TestPubKey1 = `mQENBFXbjPUBCADjNjCUQwfxKL+RR2GA6pv/1K+zJZ8UWIF9S0lk7cVIEfJiprzzwiMwBS5cD0da +rGin1FHvIWOZxujA7oW0O2TUuatqI3aAYDTfRYurh6iKLC+VS+F7H+/mhfFvKmgr0Y5kDCF1j0T/ +063QZ84IRGucR/X43IY7kAtmxGXH0dYOCzOe5UBX1fTn3mXGe2ImCDWBH7gOViynXmb6XNvXkP0f +sF5St9jhO7mbZU9EFkv9O3t3EaURfHopsCVDOlCkFCw5ArY+DUORHRzoMX0PnkyQb5OzibkChzpg +8hQssKeVGpuskTdz5Q7PtdW71jXd4fFVzoNH8fYwRpziD2xNvi6HABEBAAG0EFZhdWx0IFRlc3Qg +S2V5IDGJATgEEwECACIFAlXbjPUCGy8GCwkIBwMCBhUIAgkKCwQWAgMBAh4BAheAAAoJEOfLr44B +HbeTo+sH/i7bapIgPnZsJ81hmxPj4W12uvunksGJiC7d4hIHsG7kmJRTJfjECi+AuTGeDwBy84TD +cRaOB6e79fj65Fg6HgSahDUtKJbGxj/lWzmaBuTzlN3CEe8cMwIPqPT2kajJVdOyrvkyuFOdPFOE +A7bdCH0MqgIdM2SdF8t40k/ATfuD2K1ZmumJ508I3gF39jgTnPzD4C8quswrMQ3bzfvKC3klXRlB +C0yoArn+0QA3cf2B9T4zJ2qnvgotVbeK/b1OJRNj6Poeo+SsWNc/A5mw7lGScnDgL3yfwCm1gQXa +QKfOt5x+7GqhWDw10q+bJpJlI10FfzAnhMF9etSqSeURBRW5AQ0EVduM9QEIAL53hJ5bZJ7oEDCn +aY+SCzt9QsAfnFTAnZJQrvkvusJzrTQ088eUQmAjvxkfRqnv981fFwGnh2+I1Ktm698UAZS9Jt8y +jak9wWUICKQO5QUt5k8cHwldQXNXVXFa+TpQWQR5yW1a9okjh5o/3d4cBt1yZPUJJyLKY43Wvptb +6EuEsScO2DnRkh5wSMDQ7dTooddJCmaq3LTjOleRFQbu9ij386Do6jzK69mJU56TfdcydkxkWF5N +ZLGnED3lq+hQNbe+8UI5tD2oP/3r5tXKgMy1R/XPvR/zbfwvx4FAKFOP01awLq4P3d/2xOkMu4Lu +9p315E87DOleYwxk+FoTqXEAEQEAAYkCPgQYAQIACQUCVduM9QIbLgEpCRDny6+OAR23k8BdIAQZ +AQIABgUCVduM9QAKCRAID0JGyHtSGmqYB/4m4rJbbWa7dBJ8VqRU7ZKnNRDR9CVhEGipBmpDGRYu +lEimOPzLUX/ZXZmTZzgemeXLBaJJlWnopVUWuAsyjQuZAfdd8nHkGRHG0/DGum0l4sKTta3OPGHN +C1z1dAcQ1RCr9bTD3PxjLBczdGqhzw71trkQRBRdtPiUchltPMIyjUHqVJ0xmg0hPqFic0fICsr0 +YwKoz3h9+QEcZHvsjSZjgydKvfLYcm+4DDMCCqcHuJrbXJKUWmJcXR0y/+HQONGrGJ5xWdO+6eJi +oPn2jVMnXCm4EKc7fcLFrz/LKmJ8seXhxjM3EdFtylBGCrx3xdK0f+JDNQaC/rhUb5V2XuX6VwoH +/AtY+XsKVYRfNIupLOUcf/srsm3IXT4SXWVomOc9hjGQiJ3rraIbADsc+6bCAr4XNZS7moViAAcI +PXFv3m3WfUlnG/om78UjQqyVACRZqqAGmuPq+TSkRUCpt9h+A39LQWkojHqyob3cyLgy6z9Q557O +9uK3lQozbw2gH9zC0RqnePl+rsWIUU/ga16fH6pWc1uJiEBt8UZGypQ/E56/343epmYAe0a87sHx +8iDV+dNtDVKfPRENiLOOc19MmS+phmUyrbHqI91c0pmysYcJZCD3a502X1gpjFbPZcRtiTmGnUKd +OIu60YPNE4+h7u2CfYyFPu3AlUaGNMBlvy6PEpU=` + + TestPubKey2 = `mQENBFXbkJEBCADKb1ZvlT14XrJa2rTOe5924LQr2PTZlRv+651TXy33yEhelZ+V4sMrELN8fKEG +Zy1kNixmbq3MCF/671k3LigHA7VrOaH9iiQgr6IIq2MeIkUYKZ27C992vQkYLjbYUG8+zl5h69S4 +0Ixm0yL0M54XOJ0gm+maEK1ZESKTUlDNkIS7l0jLZSYwfUeGXSEt6FWs8OgbyRTaHw4PDHrDEE9e +Q67K6IZ3YMhPOL4fVk4Jwrp5R/RwiklT+lNozWEyFVwPFH4MeQMs9nMbt+fWlTzEA7tI4acI9yDk +Cm1yN2R9rmY0UjODRiJw6z6sLV2T+Pf32n3MNSUOYczOjZa4VBwjABEBAAG0EFZhdWx0IFRlc3Qg +S2V5IDKJATgEEwECACIFAlXbkJECGy8GCwkIBwMCBhUIAgkKCwQWAgMBAh4BAheAAAoJEOuDLGfr +XolXqz4H/28IuoRxGKoJ064YHjPkkpoddW6zdzzNfHipZnNfEUiTEls4qF1IB81M2xqfiXIFRIdO +2kaLkRPFhO0hRxbtI6VuZYLgG3QCaXhxW6GyFa5zKABqhb5ojexdnAYRswaHV201ZCclj9rnJN1P +Ag0Rz6MdX/w1euEWktQxWKo42oZKyx8oT9p6lrv5KRmGkdrg8K8ARmRILjmwuBAgJM0eXBZHNGWX +elk4YmOgnAAcZA6ZAo1G+8Pg6pKKP61ETewuCg3/u7N0vDttB+ZXqF88W9jAYlvdgbTtajNF5IDY +DjTzWfeCaIB18F9gOzXq15SwWeDDI+CU9Nmq358IzXlxk4e5AQ0EVduQkQEIAOjZV5tbpfIh5Qef +pIp2dpGMVfpgPj4RNc15CyFnb8y6dhCrdybkY9GveXJe4F3GNYnSfB42cgxrfhizX3LakmZQ/SAg ++YO5KxfCIN7Q9LPNeTgPsZZT6h8lVuXUxOFKXfRaR3/tGF5xE3e5CoZRsHV/c92h3t1LdJNOnC5m +UKIPO4zDxiw/C2T2q3rP1kmIMaOH724kEH5A+xcp1cBHyt0tdHtIWuQv6joTJzujqViRhlCwQYzQ +SKpSBxwhBsorPvyinZI/ZXA4XXZc5RoMqV9rikedrb1rENO8JOuPu6tMS+znFu67skq2gFFZwCQW +IjdHm+2ukE+PE580WAWudyMAEQEAAYkCPgQYAQIACQUCVduQkQIbLgEpCRDrgyxn616JV8BdIAQZ +AQIABgUCVduQkQAKCRArYtevdF38xtzgB/4zVzozBpVOnagRkA7FDsHo36xX60Lik+ew0m28ueDD +hnV3bXQsCvn/6wiCVWqLOTDeYCPlyTTpEMyk8zwdCICW6MgSkVHWcEDOrRqIrqm86rirjTGjJSgQ +e3l4CqJvkn6jybShYoBk1OZZV6vVv9hPTXXv9E6dLKoEW5YZBrrF+VC0w1iOIvaAQ+QXph20eV4K +BIrp/bhG6PdnigKxuBZ79cdqDnXIzT9UiIa6LYpR0rbeg+7BmuZTTPS8t+41hIiKS+UZFdKa67eY +ENtyOmEMWOFCLLRJGxkleukchiMJ70rknloZXsvJIweXBzSZ6m7mJQBgaig/L/dXyjv6+j2pNB4H +/1trYUtJjXQKHmqlgCmpCkHt3g7JoxWvglnDNmE6q3hIWuVIYQpnzZy1g05+X9Egwc1WVpBB02H7 +PkUZTfpaP/L6DLneMmSKPhZE3I+lPIPjwrxqh6xy5uQezcWkJTNKvPWF4FJzrVvx7XTPjfGvOB0U +PEnjvtZTp5yOhTeZK7DgIEtb/Wcrqs+iRArQKboM930ORSZhwvGK3F9V/gMDpIrvge5vDFsTEYQd +w/2epIewH0L/FUb/6jBRcVEpGo9Ayg+Jnhq14GOGcd1y9oMZ48kYVLVBTA9tQ+82WE8Bch7uFPj4 +MFOMVRn1dc3qdXlg3mimA+iK7tABQfG0RJ9YzWs=` + + TestPubKey3 = `mQENBFXbkiMBCACiHW4/VI2JkfvSEINddS7vE6wEu5e1leNQDaLUh6PrATQZS2a4Q6kRE6WlJumj +6wCeN753Cm93UGQl2Bi3USIEeArIZnPTcocrckOVXxtoLBNKXgqKvEsDXgfw8A+doSfXoDm/3Js4 +Wy3WsYKNR9LaPuJZHnpjsFAJhvRVyhH4UFD+1RTSSefq1mozPfDdMoZeZNEpfhwt3DuTJs7RqcTH +CgR2CqhEHnOOE5jJUljHKYLCglE2+8dth1bZlQi4xly/VHZzP3Bn7wKeolK/ROP6VZz/e0xq/BKy +resmxvlBWZ1zWwqGIrV9b0uwYvGrh2hOd5C5+5oGaA2MGcjxwaLBABEBAAG0EFZhdWx0IFRlc3Qg +S2V5IDOJATgEEwECACIFAlXbkiMCGy8GCwkIBwMCBhUIAgkKCwQWAgMBAh4BAheAAAoJEPR5S1b8 +LcbdWjEH/2mhqC9a0Vk1IzOgxEoVxYVqVdvaxI0nTZOTfmcFYn4HQlQ+SLEoyNWe5jtkhx4k5uHi +pxwKHzOv02YM14NWC6bvKw2CQETLDPG4Cv8YMUmpho5tnMDdttIzp8HjyJRtHazU1uTes2/yuqh6 +LHCejVJI0uST3RibquwdG3QjPP8Umxu+YC9+FOW2Kit/AQ8JluFDJdq3/wSX8VfYZrGdgmreE7KY +MolhCkzGSPj7oFygw8LqKoJvt9tCuBKhZMBuMv1sB5CoJIWdPoqOZc4U7L1XdqfKvFZR/RhuXgN1 +lkI9MqrnLDpikL3Lk+ctLxWOjUCW8roqKoHZYBF7XPqdAfm5AQ0EVduSIwEIAOPcjd4QgbLlqIk3 +s6BPRRyVzglTgUdf+I0rUDybaDJfJobZd8U6e4hkPvRoQ8tJefnz/qnD/63watAbJYcVTme40I3V +KDOmVGcyaDxiKP1disKqcEJd7XQiI72oAiXmEH0y+5UwnOMks/lwaAGDMGVRjHEXI6fiRPFsfTr8 +7qvMJ3pW1OiOXVSezuBNTlmyJC7srQ1/nwxL337ev6D1zQZd3JuhcxLkHrUELLNwzhvcZ70vg645 +jAmz8EdmvvoqEPPoHqKgP5AeHACOsTm953KHhgx3NYuGPU/RoIvugKt4Iq5nw7TWFTjPHGVF3GTQ +ry5CZ/AzXiL57hVEhDvmuT8AEQEAAYkCPgQYAQIACQUCVduSIwIbLgEpCRD0eUtW/C3G3cBdIAQZ +AQIABgUCVduSIwAKCRAFI/9Nx3K5IPOFCACsZ/Z4s2LcEoA51TW+T5w+YevlIuq+332JtqNIpuGI +WpGxUxyDyPT0YQWr0SObBORYNr7RP8d/I2rbaFKyaDaKvRofYr+TwXy92phBo7pdEUamBpfrm/sr ++2BgAB2x3HWXp+IMdeVVhqQe8t4cnFm3c1fIdxADyiJuV5ge2Ml5gK5yNwqCQPh7U2RqC+lmVlMJ +GvWInIRn2mf6A7phDYNZfOz6dkar4yyh5r9rRgrZw88r/yIlrq/c6KRUIgnPMrFYEauggOceZ827 ++jKkbKWFEuHtiCxW7kRAN25UfnGsPaF+NSGM2q1vCG4HiFydx6lMoXM0Shf8+ZwyrV/5BzAqpWwI +AJ37tEwC58Fboynly6OGOzgPS0xKnzkXMOtquTo0qEH/1bEUsBknn795BmZOTf4oBC5blN6qRv7c +GSP00i+sxql1NhTjJcjJtfOPUzgfW+Af/+HR648z4c7c6MCjDFKnk8ZkoGLRU7ISjenkNFzvu2bj +lxJkil0uJDlLPbbX80ojzV1GS9g+ZxVPR+68N1QLl2FU6zsfg34upmLLHG8VG4vExzgyNkOwfTYv +dgyRNTjnuPue6H12fZZ9uCNeG52v7lR3eoQcCxBOniwgipB8UJ52RWXblwxzCtGtDi/EWB3zLTUn +puKcgucA0LotbihSMxhDylaARfVO1QV6csabM/g=` + + TestAAPubKey1 = `-----BEGIN PGP PUBLIC KEY BLOCK----- +Version: GnuPG v1 + +mQENBFXbjPUBCADjNjCUQwfxKL+RR2GA6pv/1K+zJZ8UWIF9S0lk7cVIEfJiprzz +wiMwBS5cD0darGin1FHvIWOZxujA7oW0O2TUuatqI3aAYDTfRYurh6iKLC+VS+F7 +H+/mhfFvKmgr0Y5kDCF1j0T/063QZ84IRGucR/X43IY7kAtmxGXH0dYOCzOe5UBX +1fTn3mXGe2ImCDWBH7gOViynXmb6XNvXkP0fsF5St9jhO7mbZU9EFkv9O3t3EaUR +fHopsCVDOlCkFCw5ArY+DUORHRzoMX0PnkyQb5OzibkChzpg8hQssKeVGpuskTdz +5Q7PtdW71jXd4fFVzoNH8fYwRpziD2xNvi6HABEBAAG0EFZhdWx0IFRlc3QgS2V5 +IDGJATgEEwECACIFAlXbjPUCGy8GCwkIBwMCBhUIAgkKCwQWAgMBAh4BAheAAAoJ +EOfLr44BHbeTo+sH/i7bapIgPnZsJ81hmxPj4W12uvunksGJiC7d4hIHsG7kmJRT +JfjECi+AuTGeDwBy84TDcRaOB6e79fj65Fg6HgSahDUtKJbGxj/lWzmaBuTzlN3C +Ee8cMwIPqPT2kajJVdOyrvkyuFOdPFOEA7bdCH0MqgIdM2SdF8t40k/ATfuD2K1Z +mumJ508I3gF39jgTnPzD4C8quswrMQ3bzfvKC3klXRlBC0yoArn+0QA3cf2B9T4z +J2qnvgotVbeK/b1OJRNj6Poeo+SsWNc/A5mw7lGScnDgL3yfwCm1gQXaQKfOt5x+ +7GqhWDw10q+bJpJlI10FfzAnhMF9etSqSeURBRW5AQ0EVduM9QEIAL53hJ5bZJ7o +EDCnaY+SCzt9QsAfnFTAnZJQrvkvusJzrTQ088eUQmAjvxkfRqnv981fFwGnh2+I +1Ktm698UAZS9Jt8yjak9wWUICKQO5QUt5k8cHwldQXNXVXFa+TpQWQR5yW1a9okj +h5o/3d4cBt1yZPUJJyLKY43Wvptb6EuEsScO2DnRkh5wSMDQ7dTooddJCmaq3LTj +OleRFQbu9ij386Do6jzK69mJU56TfdcydkxkWF5NZLGnED3lq+hQNbe+8UI5tD2o +P/3r5tXKgMy1R/XPvR/zbfwvx4FAKFOP01awLq4P3d/2xOkMu4Lu9p315E87DOle +Ywxk+FoTqXEAEQEAAYkCPgQYAQIACQUCVduM9QIbLgEpCRDny6+OAR23k8BdIAQZ +AQIABgUCVduM9QAKCRAID0JGyHtSGmqYB/4m4rJbbWa7dBJ8VqRU7ZKnNRDR9CVh +EGipBmpDGRYulEimOPzLUX/ZXZmTZzgemeXLBaJJlWnopVUWuAsyjQuZAfdd8nHk +GRHG0/DGum0l4sKTta3OPGHNC1z1dAcQ1RCr9bTD3PxjLBczdGqhzw71trkQRBRd +tPiUchltPMIyjUHqVJ0xmg0hPqFic0fICsr0YwKoz3h9+QEcZHvsjSZjgydKvfLY +cm+4DDMCCqcHuJrbXJKUWmJcXR0y/+HQONGrGJ5xWdO+6eJioPn2jVMnXCm4EKc7 +fcLFrz/LKmJ8seXhxjM3EdFtylBGCrx3xdK0f+JDNQaC/rhUb5V2XuX6VwoH/AtY ++XsKVYRfNIupLOUcf/srsm3IXT4SXWVomOc9hjGQiJ3rraIbADsc+6bCAr4XNZS7 +moViAAcIPXFv3m3WfUlnG/om78UjQqyVACRZqqAGmuPq+TSkRUCpt9h+A39LQWko +jHqyob3cyLgy6z9Q557O9uK3lQozbw2gH9zC0RqnePl+rsWIUU/ga16fH6pWc1uJ +iEBt8UZGypQ/E56/343epmYAe0a87sHx8iDV+dNtDVKfPRENiLOOc19MmS+phmUy +rbHqI91c0pmysYcJZCD3a502X1gpjFbPZcRtiTmGnUKdOIu60YPNE4+h7u2CfYyF +Pu3AlUaGNMBlvy6PEpU= +=NUTS +-----END PGP PUBLIC KEY BLOCK-----` +) diff --git a/vendor/github.com/keybase/go-crypto/LICENSE b/vendor/github.com/keybase/go-crypto/LICENSE new file mode 100644 index 00000000..6a66aea5 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/LICENSE @@ -0,0 +1,27 @@ +Copyright (c) 2009 The Go Authors. All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are +met: + + * Redistributions of source code must retain the above copyright +notice, this list of conditions and the following disclaimer. + * Redistributions in binary form must reproduce the above +copyright notice, this list of conditions and the following disclaimer +in the documentation and/or other materials provided with the +distribution. + * Neither the name of Google Inc. nor the names of its +contributors may be used to endorse or promote products derived from +this software without specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT +OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, +SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT +LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, +DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY +THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT +(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE +OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. diff --git a/vendor/github.com/keybase/go-crypto/PATENTS b/vendor/github.com/keybase/go-crypto/PATENTS new file mode 100644 index 00000000..73309904 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/PATENTS @@ -0,0 +1,22 @@ +Additional IP Rights Grant (Patents) + +"This implementation" means the copyrightable works distributed by +Google as part of the Go project. + +Google hereby grants to You a perpetual, worldwide, non-exclusive, +no-charge, royalty-free, irrevocable (except as stated in this section) +patent license to make, have made, use, offer to sell, sell, import, +transfer and otherwise run, modify and propagate the contents of this +implementation of Go, where such license applies only to those patent +claims, both currently owned or controlled by Google and acquired in +the future, licensable by Google that are necessarily infringed by this +implementation of Go. This grant does not include claims that would be +infringed only as a consequence of further modification of this +implementation. If you or your agent or exclusive licensee institute or +order or agree to the institution of patent litigation against any +entity (including a cross-claim or counterclaim in a lawsuit) alleging +that this implementation of Go or any code incorporated within this +implementation of Go constitutes direct or contributory patent +infringement, or inducement of patent infringement, then any patent +rights granted to you under this License for this implementation of Go +shall terminate as of the date such litigation is filed. diff --git a/vendor/github.com/keybase/go-crypto/brainpool/brainpool.go b/vendor/github.com/keybase/go-crypto/brainpool/brainpool.go new file mode 100644 index 00000000..77fb8b9a --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/brainpool/brainpool.go @@ -0,0 +1,134 @@ +// Package brainpool implements Brainpool elliptic curves. +// Implementation of rcurves is from github.com/ebfe/brainpool +// Note that these curves are implemented with naive, non-constant time operations +// and are likely not suitable for enviroments where timing attacks are a concern. +package brainpool + +import ( + "crypto/elliptic" + "math/big" + "sync" +) + +var ( + once sync.Once + p256t1, p384t1, p512t1 *elliptic.CurveParams + p256r1, p384r1, p512r1 *rcurve +) + +func initAll() { + initP256t1() + initP384t1() + initP512t1() + initP256r1() + initP384r1() + initP512r1() +} + +func initP256t1() { + p256t1 = &elliptic.CurveParams{Name: "brainpoolP256t1"} + p256t1.P, _ = new(big.Int).SetString("A9FB57DBA1EEA9BC3E660A909D838D726E3BF623D52620282013481D1F6E5377", 16) + p256t1.N, _ = new(big.Int).SetString("A9FB57DBA1EEA9BC3E660A909D838D718C397AA3B561A6F7901E0E82974856A7", 16) + p256t1.B, _ = new(big.Int).SetString("662C61C430D84EA4FE66A7733D0B76B7BF93EBC4AF2F49256AE58101FEE92B04", 16) + p256t1.Gx, _ = new(big.Int).SetString("A3E8EB3CC1CFE7B7732213B23A656149AFA142C47AAFBC2B79A191562E1305F4", 16) + p256t1.Gy, _ = new(big.Int).SetString("2D996C823439C56D7F7B22E14644417E69BCB6DE39D027001DABE8F35B25C9BE", 16) + p256t1.BitSize = 256 +} + +func initP256r1() { + twisted := p256t1 + params := &elliptic.CurveParams{ + Name: "brainpoolP256r1", + P: twisted.P, + N: twisted.N, + BitSize: twisted.BitSize, + } + params.Gx, _ = new(big.Int).SetString("8BD2AEB9CB7E57CB2C4B482FFC81B7AFB9DE27E1E3BD23C23A4453BD9ACE3262", 16) + params.Gy, _ = new(big.Int).SetString("547EF835C3DAC4FD97F8461A14611DC9C27745132DED8E545C1D54C72F046997", 16) + z, _ := new(big.Int).SetString("3E2D4BD9597B58639AE7AA669CAB9837CF5CF20A2C852D10F655668DFC150EF0", 16) + p256r1 = newrcurve(twisted, params, z) +} + +func initP384t1() { + p384t1 = &elliptic.CurveParams{Name: "brainpoolP384t1"} + p384t1.P, _ = new(big.Int).SetString("8CB91E82A3386D280F5D6F7E50E641DF152F7109ED5456B412B1DA197FB71123ACD3A729901D1A71874700133107EC53", 16) + p384t1.N, _ = new(big.Int).SetString("8CB91E82A3386D280F5D6F7E50E641DF152F7109ED5456B31F166E6CAC0425A7CF3AB6AF6B7FC3103B883202E9046565", 16) + p384t1.B, _ = new(big.Int).SetString("7F519EADA7BDA81BD826DBA647910F8C4B9346ED8CCDC64E4B1ABD11756DCE1D2074AA263B88805CED70355A33B471EE", 16) + p384t1.Gx, _ = new(big.Int).SetString("18DE98B02DB9A306F2AFCD7235F72A819B80AB12EBD653172476FECD462AABFFC4FF191B946A5F54D8D0AA2F418808CC", 16) + p384t1.Gy, _ = new(big.Int).SetString("25AB056962D30651A114AFD2755AD336747F93475B7A1FCA3B88F2B6A208CCFE469408584DC2B2912675BF5B9E582928", 16) + p384t1.BitSize = 384 +} + +func initP384r1() { + twisted := p384t1 + params := &elliptic.CurveParams{ + Name: "brainpoolP384r1", + P: twisted.P, + N: twisted.N, + BitSize: twisted.BitSize, + } + params.Gx, _ = new(big.Int).SetString("1D1C64F068CF45FFA2A63A81B7C13F6B8847A3E77EF14FE3DB7FCAFE0CBD10E8E826E03436D646AAEF87B2E247D4AF1E", 16) + params.Gy, _ = new(big.Int).SetString("8ABE1D7520F9C2A45CB1EB8E95CFD55262B70B29FEEC5864E19C054FF99129280E4646217791811142820341263C5315", 16) + z, _ := new(big.Int).SetString("41DFE8DD399331F7166A66076734A89CD0D2BCDB7D068E44E1F378F41ECBAE97D2D63DBC87BCCDDCCC5DA39E8589291C", 16) + p384r1 = newrcurve(twisted, params, z) +} + +func initP512t1() { + p512t1 = &elliptic.CurveParams{Name: "brainpoolP512t1"} + p512t1.P, _ = new(big.Int).SetString("AADD9DB8DBE9C48B3FD4E6AE33C9FC07CB308DB3B3C9D20ED6639CCA703308717D4D9B009BC66842AECDA12AE6A380E62881FF2F2D82C68528AA6056583A48F3", 16) + p512t1.N, _ = new(big.Int).SetString("AADD9DB8DBE9C48B3FD4E6AE33C9FC07CB308DB3B3C9D20ED6639CCA70330870553E5C414CA92619418661197FAC10471DB1D381085DDADDB58796829CA90069", 16) + p512t1.B, _ = new(big.Int).SetString("7CBBBCF9441CFAB76E1890E46884EAE321F70C0BCB4981527897504BEC3E36A62BCDFA2304976540F6450085F2DAE145C22553B465763689180EA2571867423E", 16) + p512t1.Gx, _ = new(big.Int).SetString("640ECE5C12788717B9C1BA06CBC2A6FEBA85842458C56DDE9DB1758D39C0313D82BA51735CDB3EA499AA77A7D6943A64F7A3F25FE26F06B51BAA2696FA9035DA", 16) + p512t1.Gy, _ = new(big.Int).SetString("5B534BD595F5AF0FA2C892376C84ACE1BB4E3019B71634C01131159CAE03CEE9D9932184BEEF216BD71DF2DADF86A627306ECFF96DBB8BACE198B61E00F8B332", 16) + p512t1.BitSize = 512 +} + +func initP512r1() { + twisted := p512t1 + params := &elliptic.CurveParams{ + Name: "brainpoolP512r1", + P: twisted.P, + N: twisted.N, + BitSize: twisted.BitSize, + } + params.Gx, _ = new(big.Int).SetString("81AEE4BDD82ED9645A21322E9C4C6A9385ED9F70B5D916C1B43B62EEF4D0098EFF3B1F78E2D0D48D50D1687B93B97D5F7C6D5047406A5E688B352209BCB9F822", 16) + params.Gy, _ = new(big.Int).SetString("7DDE385D566332ECC0EABFA9CF7822FDF209F70024A57B1AA000C55B881F8111B2DCDE494A5F485E5BCA4BD88A2763AED1CA2B2FA8F0540678CD1E0F3AD80892", 16) + z, _ := new(big.Int).SetString("12EE58E6764838B69782136F0F2D3BA06E27695716054092E60A80BEDB212B64E585D90BCE13761F85C3F1D2A64E3BE8FEA2220F01EBA5EEB0F35DBD29D922AB", 16) + p512r1 = newrcurve(twisted, params, z) +} + +// P256t1 returns a Curve which implements Brainpool P256t1 (see RFC 5639, section 3.4) +func P256t1() elliptic.Curve { + once.Do(initAll) + return p256t1 +} + +// P256r1 returns a Curve which implements Brainpool P256r1 (see RFC 5639, section 3.4) +func P256r1() elliptic.Curve { + once.Do(initAll) + return p256r1 +} + +// P384t1 returns a Curve which implements Brainpool P384t1 (see RFC 5639, section 3.6) +func P384t1() elliptic.Curve { + once.Do(initAll) + return p384t1 +} + +// P384r1 returns a Curve which implements Brainpool P384r1 (see RFC 5639, section 3.6) +func P384r1() elliptic.Curve { + once.Do(initAll) + return p384r1 +} + +// P512t1 returns a Curve which implements Brainpool P512t1 (see RFC 5639, section 3.7) +func P512t1() elliptic.Curve { + once.Do(initAll) + return p512t1 +} + +// P512r1 returns a Curve which implements Brainpool P512r1 (see RFC 5639, section 3.7) +func P512r1() elliptic.Curve { + once.Do(initAll) + return p512r1 +} diff --git a/vendor/github.com/keybase/go-crypto/brainpool/rcurve.go b/vendor/github.com/keybase/go-crypto/brainpool/rcurve.go new file mode 100644 index 00000000..7e291d6a --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/brainpool/rcurve.go @@ -0,0 +1,83 @@ +package brainpool + +import ( + "crypto/elliptic" + "math/big" +) + +var _ elliptic.Curve = (*rcurve)(nil) + +type rcurve struct { + twisted elliptic.Curve + params *elliptic.CurveParams + z *big.Int + zinv *big.Int + z2 *big.Int + z3 *big.Int + zinv2 *big.Int + zinv3 *big.Int +} + +var ( + two = big.NewInt(2) + three = big.NewInt(3) +) + +func newrcurve(twisted elliptic.Curve, params *elliptic.CurveParams, z *big.Int) *rcurve { + zinv := new(big.Int).ModInverse(z, params.P) + return &rcurve{ + twisted: twisted, + params: params, + z: z, + zinv: zinv, + z2: new(big.Int).Exp(z, two, params.P), + z3: new(big.Int).Exp(z, three, params.P), + zinv2: new(big.Int).Exp(zinv, two, params.P), + zinv3: new(big.Int).Exp(zinv, three, params.P), + } +} + +func (curve *rcurve) toTwisted(x, y *big.Int) (*big.Int, *big.Int) { + var tx, ty big.Int + tx.Mul(x, curve.z2) + tx.Mod(&tx, curve.params.P) + ty.Mul(y, curve.z3) + ty.Mod(&ty, curve.params.P) + return &tx, &ty +} + +func (curve *rcurve) fromTwisted(tx, ty *big.Int) (*big.Int, *big.Int) { + var x, y big.Int + x.Mul(tx, curve.zinv2) + x.Mod(&x, curve.params.P) + y.Mul(ty, curve.zinv3) + y.Mod(&y, curve.params.P) + return &x, &y +} + +func (curve *rcurve) Params() *elliptic.CurveParams { + return curve.params +} + +func (curve *rcurve) IsOnCurve(x, y *big.Int) bool { + return curve.twisted.IsOnCurve(curve.toTwisted(x, y)) +} + +func (curve *rcurve) Add(x1, y1, x2, y2 *big.Int) (x, y *big.Int) { + tx1, ty1 := curve.toTwisted(x1, y1) + tx2, ty2 := curve.toTwisted(x2, y2) + return curve.fromTwisted(curve.twisted.Add(tx1, ty1, tx2, ty2)) +} + +func (curve *rcurve) Double(x1, y1 *big.Int) (x, y *big.Int) { + return curve.fromTwisted(curve.twisted.Double(curve.toTwisted(x1, y1))) +} + +func (curve *rcurve) ScalarMult(x1, y1 *big.Int, scalar []byte) (x, y *big.Int) { + tx1, ty1 := curve.toTwisted(x1, y1) + return curve.fromTwisted(curve.twisted.ScalarMult(tx1, ty1, scalar)) +} + +func (curve *rcurve) ScalarBaseMult(scalar []byte) (x, y *big.Int) { + return curve.fromTwisted(curve.twisted.ScalarBaseMult(scalar)) +} diff --git a/vendor/github.com/keybase/go-crypto/cast5/cast5.go b/vendor/github.com/keybase/go-crypto/cast5/cast5.go new file mode 100644 index 00000000..8c1b299b --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/cast5/cast5.go @@ -0,0 +1,526 @@ +// Copyright 2010 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package cast5 implements CAST5, as defined in RFC 2144. CAST5 is a common +// OpenPGP cipher. +package cast5 + +import "errors" + +const BlockSize = 8 +const KeySize = 16 + +type Cipher struct { + masking [16]uint32 + rotate [16]uint8 +} + +func NewCipher(key []byte) (c *Cipher, err error) { + if len(key) != KeySize { + return nil, errors.New("CAST5: keys must be 16 bytes") + } + + c = new(Cipher) + c.keySchedule(key) + return +} + +func (c *Cipher) BlockSize() int { + return BlockSize +} + +func (c *Cipher) Encrypt(dst, src []byte) { + l := uint32(src[0])<<24 | uint32(src[1])<<16 | uint32(src[2])<<8 | uint32(src[3]) + r := uint32(src[4])<<24 | uint32(src[5])<<16 | uint32(src[6])<<8 | uint32(src[7]) + + l, r = r, l^f1(r, c.masking[0], c.rotate[0]) + l, r = r, l^f2(r, c.masking[1], c.rotate[1]) + l, r = r, l^f3(r, c.masking[2], c.rotate[2]) + l, r = r, l^f1(r, c.masking[3], c.rotate[3]) + + l, r = r, l^f2(r, c.masking[4], c.rotate[4]) + l, r = r, l^f3(r, c.masking[5], c.rotate[5]) + l, r = r, l^f1(r, c.masking[6], c.rotate[6]) + l, r = r, l^f2(r, c.masking[7], c.rotate[7]) + + l, r = r, l^f3(r, c.masking[8], c.rotate[8]) + l, r = r, l^f1(r, c.masking[9], c.rotate[9]) + l, r = r, l^f2(r, c.masking[10], c.rotate[10]) + l, r = r, l^f3(r, c.masking[11], c.rotate[11]) + + l, r = r, l^f1(r, c.masking[12], c.rotate[12]) + l, r = r, l^f2(r, c.masking[13], c.rotate[13]) + l, r = r, l^f3(r, c.masking[14], c.rotate[14]) + l, r = r, l^f1(r, c.masking[15], c.rotate[15]) + + dst[0] = uint8(r >> 24) + dst[1] = uint8(r >> 16) + dst[2] = uint8(r >> 8) + dst[3] = uint8(r) + dst[4] = uint8(l >> 24) + dst[5] = uint8(l >> 16) + dst[6] = uint8(l >> 8) + dst[7] = uint8(l) +} + +func (c *Cipher) Decrypt(dst, src []byte) { + l := uint32(src[0])<<24 | uint32(src[1])<<16 | uint32(src[2])<<8 | uint32(src[3]) + r := uint32(src[4])<<24 | uint32(src[5])<<16 | uint32(src[6])<<8 | uint32(src[7]) + + l, r = r, l^f1(r, c.masking[15], c.rotate[15]) + l, r = r, l^f3(r, c.masking[14], c.rotate[14]) + l, r = r, l^f2(r, c.masking[13], c.rotate[13]) + l, r = r, l^f1(r, c.masking[12], c.rotate[12]) + + l, r = r, l^f3(r, c.masking[11], c.rotate[11]) + l, r = r, l^f2(r, c.masking[10], c.rotate[10]) + l, r = r, l^f1(r, c.masking[9], c.rotate[9]) + l, r = r, l^f3(r, c.masking[8], c.rotate[8]) + + l, r = r, l^f2(r, c.masking[7], c.rotate[7]) + l, r = r, l^f1(r, c.masking[6], c.rotate[6]) + l, r = r, l^f3(r, c.masking[5], c.rotate[5]) + l, r = r, l^f2(r, c.masking[4], c.rotate[4]) + + l, r = r, l^f1(r, c.masking[3], c.rotate[3]) + l, r = r, l^f3(r, c.masking[2], c.rotate[2]) + l, r = r, l^f2(r, c.masking[1], c.rotate[1]) + l, r = r, l^f1(r, c.masking[0], c.rotate[0]) + + dst[0] = uint8(r >> 24) + dst[1] = uint8(r >> 16) + dst[2] = uint8(r >> 8) + dst[3] = uint8(r) + dst[4] = uint8(l >> 24) + dst[5] = uint8(l >> 16) + dst[6] = uint8(l >> 8) + dst[7] = uint8(l) +} + +type keyScheduleA [4][7]uint8 +type keyScheduleB [4][5]uint8 + +// keyScheduleRound contains the magic values for a round of the key schedule. +// The keyScheduleA deals with the lines like: +// z0z1z2z3 = x0x1x2x3 ^ S5[xD] ^ S6[xF] ^ S7[xC] ^ S8[xE] ^ S7[x8] +// Conceptually, both x and z are in the same array, x first. The first +// element describes which word of this array gets written to and the +// second, which word gets read. So, for the line above, it's "4, 0", because +// it's writing to the first word of z, which, being after x, is word 4, and +// reading from the first word of x: word 0. +// +// Next are the indexes into the S-boxes. Now the array is treated as bytes. So +// "xD" is 0xd. The first byte of z is written as "16 + 0", just to be clear +// that it's z that we're indexing. +// +// keyScheduleB deals with lines like: +// K1 = S5[z8] ^ S6[z9] ^ S7[z7] ^ S8[z6] ^ S5[z2] +// "K1" is ignored because key words are always written in order. So the five +// elements are the S-box indexes. They use the same form as in keyScheduleA, +// above. + +type keyScheduleRound struct{} +type keySchedule []keyScheduleRound + +var schedule = []struct { + a keyScheduleA + b keyScheduleB +}{ + { + keyScheduleA{ + {4, 0, 0xd, 0xf, 0xc, 0xe, 0x8}, + {5, 2, 16 + 0, 16 + 2, 16 + 1, 16 + 3, 0xa}, + {6, 3, 16 + 7, 16 + 6, 16 + 5, 16 + 4, 9}, + {7, 1, 16 + 0xa, 16 + 9, 16 + 0xb, 16 + 8, 0xb}, + }, + keyScheduleB{ + {16 + 8, 16 + 9, 16 + 7, 16 + 6, 16 + 2}, + {16 + 0xa, 16 + 0xb, 16 + 5, 16 + 4, 16 + 6}, + {16 + 0xc, 16 + 0xd, 16 + 3, 16 + 2, 16 + 9}, + {16 + 0xe, 16 + 0xf, 16 + 1, 16 + 0, 16 + 0xc}, + }, + }, + { + keyScheduleA{ + {0, 6, 16 + 5, 16 + 7, 16 + 4, 16 + 6, 16 + 0}, + {1, 4, 0, 2, 1, 3, 16 + 2}, + {2, 5, 7, 6, 5, 4, 16 + 1}, + {3, 7, 0xa, 9, 0xb, 8, 16 + 3}, + }, + keyScheduleB{ + {3, 2, 0xc, 0xd, 8}, + {1, 0, 0xe, 0xf, 0xd}, + {7, 6, 8, 9, 3}, + {5, 4, 0xa, 0xb, 7}, + }, + }, + { + keyScheduleA{ + {4, 0, 0xd, 0xf, 0xc, 0xe, 8}, + {5, 2, 16 + 0, 16 + 2, 16 + 1, 16 + 3, 0xa}, + {6, 3, 16 + 7, 16 + 6, 16 + 5, 16 + 4, 9}, + {7, 1, 16 + 0xa, 16 + 9, 16 + 0xb, 16 + 8, 0xb}, + }, + keyScheduleB{ + {16 + 3, 16 + 2, 16 + 0xc, 16 + 0xd, 16 + 9}, + {16 + 1, 16 + 0, 16 + 0xe, 16 + 0xf, 16 + 0xc}, + {16 + 7, 16 + 6, 16 + 8, 16 + 9, 16 + 2}, + {16 + 5, 16 + 4, 16 + 0xa, 16 + 0xb, 16 + 6}, + }, + }, + { + keyScheduleA{ + {0, 6, 16 + 5, 16 + 7, 16 + 4, 16 + 6, 16 + 0}, + {1, 4, 0, 2, 1, 3, 16 + 2}, + {2, 5, 7, 6, 5, 4, 16 + 1}, + {3, 7, 0xa, 9, 0xb, 8, 16 + 3}, + }, + keyScheduleB{ + {8, 9, 7, 6, 3}, + {0xa, 0xb, 5, 4, 7}, + {0xc, 0xd, 3, 2, 8}, + {0xe, 0xf, 1, 0, 0xd}, + }, + }, +} + +func (c *Cipher) keySchedule(in []byte) { + var t [8]uint32 + var k [32]uint32 + + for i := 0; i < 4; i++ { + j := i * 4 + t[i] = uint32(in[j])<<24 | uint32(in[j+1])<<16 | uint32(in[j+2])<<8 | uint32(in[j+3]) + } + + x := []byte{6, 7, 4, 5} + ki := 0 + + for half := 0; half < 2; half++ { + for _, round := range schedule { + for j := 0; j < 4; j++ { + var a [7]uint8 + copy(a[:], round.a[j][:]) + w := t[a[1]] + w ^= sBox[4][(t[a[2]>>2]>>(24-8*(a[2]&3)))&0xff] + w ^= sBox[5][(t[a[3]>>2]>>(24-8*(a[3]&3)))&0xff] + w ^= sBox[6][(t[a[4]>>2]>>(24-8*(a[4]&3)))&0xff] + w ^= sBox[7][(t[a[5]>>2]>>(24-8*(a[5]&3)))&0xff] + w ^= sBox[x[j]][(t[a[6]>>2]>>(24-8*(a[6]&3)))&0xff] + t[a[0]] = w + } + + for j := 0; j < 4; j++ { + var b [5]uint8 + copy(b[:], round.b[j][:]) + w := sBox[4][(t[b[0]>>2]>>(24-8*(b[0]&3)))&0xff] + w ^= sBox[5][(t[b[1]>>2]>>(24-8*(b[1]&3)))&0xff] + w ^= sBox[6][(t[b[2]>>2]>>(24-8*(b[2]&3)))&0xff] + w ^= sBox[7][(t[b[3]>>2]>>(24-8*(b[3]&3)))&0xff] + w ^= sBox[4+j][(t[b[4]>>2]>>(24-8*(b[4]&3)))&0xff] + k[ki] = w + ki++ + } + } + } + + for i := 0; i < 16; i++ { + c.masking[i] = k[i] + c.rotate[i] = uint8(k[16+i] & 0x1f) + } +} + +// These are the three 'f' functions. See RFC 2144, section 2.2. +func f1(d, m uint32, r uint8) uint32 { + t := m + d + I := (t << r) | (t >> (32 - r)) + return ((sBox[0][I>>24] ^ sBox[1][(I>>16)&0xff]) - sBox[2][(I>>8)&0xff]) + sBox[3][I&0xff] +} + +func f2(d, m uint32, r uint8) uint32 { + t := m ^ d + I := (t << r) | (t >> (32 - r)) + return ((sBox[0][I>>24] - sBox[1][(I>>16)&0xff]) + sBox[2][(I>>8)&0xff]) ^ sBox[3][I&0xff] +} + +func f3(d, m uint32, r uint8) uint32 { + t := m - d + I := (t << r) | (t >> (32 - r)) + return ((sBox[0][I>>24] + sBox[1][(I>>16)&0xff]) ^ sBox[2][(I>>8)&0xff]) - sBox[3][I&0xff] +} + +var sBox = [8][256]uint32{ + { + 0x30fb40d4, 0x9fa0ff0b, 0x6beccd2f, 0x3f258c7a, 0x1e213f2f, 0x9c004dd3, 0x6003e540, 0xcf9fc949, + 0xbfd4af27, 0x88bbbdb5, 0xe2034090, 0x98d09675, 0x6e63a0e0, 0x15c361d2, 0xc2e7661d, 0x22d4ff8e, + 0x28683b6f, 0xc07fd059, 0xff2379c8, 0x775f50e2, 0x43c340d3, 0xdf2f8656, 0x887ca41a, 0xa2d2bd2d, + 0xa1c9e0d6, 0x346c4819, 0x61b76d87, 0x22540f2f, 0x2abe32e1, 0xaa54166b, 0x22568e3a, 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0xb4d137cf, 0xb44e79f0, 0x049eedfd, + 0x0b15a15d, 0x480d3168, 0x8bbbde5a, 0x669ded42, 0xc7ece831, 0x3f8f95e7, 0x72df191b, 0x7580330d, + 0x94074251, 0x5c7dcdfa, 0xabbe6d63, 0xaa402164, 0xb301d40a, 0x02e7d1ca, 0x53571dae, 0x7a3182a2, + 0x12a8ddec, 0xfdaa335d, 0x176f43e8, 0x71fb46d4, 0x38129022, 0xce949ad4, 0xb84769ad, 0x965bd862, + 0x82f3d055, 0x66fb9767, 0x15b80b4e, 0x1d5b47a0, 0x4cfde06f, 0xc28ec4b8, 0x57e8726e, 0x647a78fc, + 0x99865d44, 0x608bd593, 0x6c200e03, 0x39dc5ff6, 0x5d0b00a3, 0xae63aff2, 0x7e8bd632, 0x70108c0c, + 0xbbd35049, 0x2998df04, 0x980cf42a, 0x9b6df491, 0x9e7edd53, 0x06918548, 0x58cb7e07, 0x3b74ef2e, + 0x522fffb1, 0xd24708cc, 0x1c7e27cd, 0xa4eb215b, 0x3cf1d2e2, 0x19b47a38, 0x424f7618, 0x35856039, + 0x9d17dee7, 0x27eb35e6, 0xc9aff67b, 0x36baf5b8, 0x09c467cd, 0xc18910b1, 0xe11dbf7b, 0x06cd1af8, + 0x7170c608, 0x2d5e3354, 0xd4de495a, 0x64c6d006, 0xbcc0c62c, 0x3dd00db3, 0x708f8f34, 0x77d51b42, + 0x264f620f, 0x24b8d2bf, 0x15c1b79e, 0x46a52564, 0xf8d7e54e, 0x3e378160, 0x7895cda5, 0x859c15a5, + 0xe6459788, 0xc37bc75f, 0xdb07ba0c, 0x0676a3ab, 0x7f229b1e, 0x31842e7b, 0x24259fd7, 0xf8bef472, + 0x835ffcb8, 0x6df4c1f2, 0x96f5b195, 0xfd0af0fc, 0xb0fe134c, 0xe2506d3d, 0x4f9b12ea, 0xf215f225, + 0xa223736f, 0x9fb4c428, 0x25d04979, 0x34c713f8, 0xc4618187, 0xea7a6e98, 0x7cd16efc, 0x1436876c, + 0xf1544107, 0xbedeee14, 0x56e9af27, 0xa04aa441, 0x3cf7c899, 0x92ecbae6, 0xdd67016d, 0x151682eb, + 0xa842eedf, 0xfdba60b4, 0xf1907b75, 0x20e3030f, 0x24d8c29e, 0xe139673b, 0xefa63fb8, 0x71873054, + 0xb6f2cf3b, 0x9f326442, 0xcb15a4cc, 0xb01a4504, 0xf1e47d8d, 0x844a1be5, 0xbae7dfdc, 0x42cbda70, + 0xcd7dae0a, 0x57e85b7a, 0xd53f5af6, 0x20cf4d8c, 0xcea4d428, 0x79d130a4, 0x3486ebfb, 0x33d3cddc, + 0x77853b53, 0x37effcb5, 0xc5068778, 0xe580b3e6, 0x4e68b8f4, 0xc5c8b37e, 0x0d809ea2, 0x398feb7c, + 0x132a4f94, 0x43b7950e, 0x2fee7d1c, 0x223613bd, 0xdd06caa2, 0x37df932b, 0xc4248289, 0xacf3ebc3, + 0x5715f6b7, 0xef3478dd, 0xf267616f, 0xc148cbe4, 0x9052815e, 0x5e410fab, 0xb48a2465, 0x2eda7fa4, + 0xe87b40e4, 0xe98ea084, 0x5889e9e1, 0xefd390fc, 0xdd07d35b, 0xdb485694, 0x38d7e5b2, 0x57720101, + 0x730edebc, 0x5b643113, 0x94917e4f, 0x503c2fba, 0x646f1282, 0x7523d24a, 0xe0779695, 0xf9c17a8f, + 0x7a5b2121, 0xd187b896, 0x29263a4d, 0xba510cdf, 0x81f47c9f, 0xad1163ed, 0xea7b5965, 0x1a00726e, + 0x11403092, 0x00da6d77, 0x4a0cdd61, 0xad1f4603, 0x605bdfb0, 0x9eedc364, 0x22ebe6a8, 0xcee7d28a, + 0xa0e736a0, 0x5564a6b9, 0x10853209, 0xc7eb8f37, 0x2de705ca, 0x8951570f, 0xdf09822b, 0xbd691a6c, + 0xaa12e4f2, 0x87451c0f, 0xe0f6a27a, 0x3ada4819, 0x4cf1764f, 0x0d771c2b, 0x67cdb156, 0x350d8384, + 0x5938fa0f, 0x42399ef3, 0x36997b07, 0x0e84093d, 0x4aa93e61, 0x8360d87b, 0x1fa98b0c, 0x1149382c, + 0xe97625a5, 0x0614d1b7, 0x0e25244b, 0x0c768347, 0x589e8d82, 0x0d2059d1, 0xa466bb1e, 0xf8da0a82, + 0x04f19130, 0xba6e4ec0, 0x99265164, 0x1ee7230d, 0x50b2ad80, 0xeaee6801, 0x8db2a283, 0xea8bf59e, + }, +} diff --git a/vendor/github.com/keybase/go-crypto/curve25519/const_amd64.s b/vendor/github.com/keybase/go-crypto/curve25519/const_amd64.s new file mode 100644 index 00000000..797f9b05 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/curve25519/const_amd64.s @@ -0,0 +1,20 @@ +// Copyright 2012 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// This code was translated into a form compatible with 6a from the public +// domain sources in SUPERCOP: http://bench.cr.yp.to/supercop.html + +// +build amd64,!gccgo,!appengine + +DATA ·REDMASK51(SB)/8, $0x0007FFFFFFFFFFFF +GLOBL ·REDMASK51(SB), 8, $8 + +DATA ·_121666_213(SB)/8, $996687872 +GLOBL ·_121666_213(SB), 8, $8 + +DATA ·_2P0(SB)/8, $0xFFFFFFFFFFFDA +GLOBL ·_2P0(SB), 8, $8 + +DATA ·_2P1234(SB)/8, $0xFFFFFFFFFFFFE +GLOBL ·_2P1234(SB), 8, $8 diff --git a/vendor/github.com/keybase/go-crypto/curve25519/cswap_amd64.s b/vendor/github.com/keybase/go-crypto/curve25519/cswap_amd64.s new file mode 100644 index 00000000..45484d1b --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/curve25519/cswap_amd64.s @@ -0,0 +1,88 @@ +// Copyright 2012 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// This code was translated into a form compatible with 6a from the public +// domain sources in SUPERCOP: http://bench.cr.yp.to/supercop.html + +// +build amd64,!gccgo,!appengine + +// func cswap(inout *[5]uint64, v uint64) +TEXT ·cswap(SB),7,$0 + MOVQ inout+0(FP),DI + MOVQ v+8(FP),SI + + CMPQ SI,$1 + MOVQ 0(DI),SI + MOVQ 80(DI),DX + MOVQ 8(DI),CX + MOVQ 88(DI),R8 + MOVQ SI,R9 + CMOVQEQ DX,SI + CMOVQEQ R9,DX + MOVQ CX,R9 + CMOVQEQ R8,CX + CMOVQEQ R9,R8 + MOVQ SI,0(DI) + MOVQ DX,80(DI) + MOVQ CX,8(DI) + MOVQ R8,88(DI) + MOVQ 16(DI),SI + MOVQ 96(DI),DX + MOVQ 24(DI),CX + MOVQ 104(DI),R8 + MOVQ SI,R9 + CMOVQEQ DX,SI + CMOVQEQ R9,DX + MOVQ CX,R9 + CMOVQEQ R8,CX + CMOVQEQ R9,R8 + MOVQ SI,16(DI) + MOVQ DX,96(DI) + MOVQ CX,24(DI) + MOVQ R8,104(DI) + MOVQ 32(DI),SI + MOVQ 112(DI),DX + MOVQ 40(DI),CX + MOVQ 120(DI),R8 + MOVQ SI,R9 + CMOVQEQ DX,SI + CMOVQEQ R9,DX + MOVQ CX,R9 + CMOVQEQ R8,CX + CMOVQEQ R9,R8 + MOVQ SI,32(DI) + MOVQ DX,112(DI) + MOVQ CX,40(DI) + MOVQ R8,120(DI) + MOVQ 48(DI),SI + MOVQ 128(DI),DX + MOVQ 56(DI),CX + MOVQ 136(DI),R8 + MOVQ SI,R9 + CMOVQEQ DX,SI + CMOVQEQ R9,DX + MOVQ CX,R9 + CMOVQEQ R8,CX + CMOVQEQ R9,R8 + MOVQ SI,48(DI) + MOVQ DX,128(DI) + MOVQ CX,56(DI) + MOVQ R8,136(DI) + MOVQ 64(DI),SI + MOVQ 144(DI),DX + MOVQ 72(DI),CX + MOVQ 152(DI),R8 + MOVQ SI,R9 + CMOVQEQ DX,SI + CMOVQEQ R9,DX + MOVQ CX,R9 + CMOVQEQ R8,CX + CMOVQEQ R9,R8 + MOVQ SI,64(DI) + MOVQ DX,144(DI) + MOVQ CX,72(DI) + MOVQ R8,152(DI) + MOVQ DI,AX + MOVQ SI,DX + RET diff --git a/vendor/github.com/keybase/go-crypto/curve25519/curve25519.go b/vendor/github.com/keybase/go-crypto/curve25519/curve25519.go new file mode 100644 index 00000000..6918c47f --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/curve25519/curve25519.go @@ -0,0 +1,841 @@ +// Copyright 2013 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// We have a implementation in amd64 assembly so this code is only run on +// non-amd64 platforms. The amd64 assembly does not support gccgo. +// +build !amd64 gccgo appengine + +package curve25519 + +// This code is a port of the public domain, "ref10" implementation of +// curve25519 from SUPERCOP 20130419 by D. J. Bernstein. + +// fieldElement represents an element of the field GF(2^255 - 19). An element +// t, entries t[0]...t[9], represents the integer t[0]+2^26 t[1]+2^51 t[2]+2^77 +// t[3]+2^102 t[4]+...+2^230 t[9]. Bounds on each t[i] vary depending on +// context. +type fieldElement [10]int32 + +func feZero(fe *fieldElement) { + for i := range fe { + fe[i] = 0 + } +} + +func feOne(fe *fieldElement) { + feZero(fe) + fe[0] = 1 +} + +func feAdd(dst, a, b *fieldElement) { + for i := range dst { + dst[i] = a[i] + b[i] + } +} + +func feSub(dst, a, b *fieldElement) { + for i := range dst { + dst[i] = a[i] - b[i] + } +} + +func feCopy(dst, src *fieldElement) { + for i := range dst { + dst[i] = src[i] + } +} + +// feCSwap replaces (f,g) with (g,f) if b == 1; replaces (f,g) with (f,g) if b == 0. +// +// Preconditions: b in {0,1}. +func feCSwap(f, g *fieldElement, b int32) { + var x fieldElement + b = -b + for i := range x { + x[i] = b & (f[i] ^ g[i]) + } + + for i := range f { + f[i] ^= x[i] + } + for i := range g { + g[i] ^= x[i] + } +} + +// load3 reads a 24-bit, little-endian value from in. +func load3(in []byte) int64 { + var r int64 + r = int64(in[0]) + r |= int64(in[1]) << 8 + r |= int64(in[2]) << 16 + return r +} + +// load4 reads a 32-bit, little-endian value from in. +func load4(in []byte) int64 { + var r int64 + r = int64(in[0]) + r |= int64(in[1]) << 8 + r |= int64(in[2]) << 16 + r |= int64(in[3]) << 24 + return r +} + +func feFromBytes(dst *fieldElement, src *[32]byte) { + h0 := load4(src[:]) + h1 := load3(src[4:]) << 6 + h2 := load3(src[7:]) << 5 + h3 := load3(src[10:]) << 3 + h4 := load3(src[13:]) << 2 + h5 := load4(src[16:]) + h6 := load3(src[20:]) << 7 + h7 := load3(src[23:]) << 5 + h8 := load3(src[26:]) << 4 + h9 := load3(src[29:]) << 2 + + var carry [10]int64 + carry[9] = (h9 + 1<<24) >> 25 + h0 += carry[9] * 19 + h9 -= carry[9] << 25 + carry[1] = (h1 + 1<<24) >> 25 + h2 += carry[1] + h1 -= carry[1] << 25 + carry[3] = (h3 + 1<<24) >> 25 + h4 += carry[3] + h3 -= carry[3] << 25 + carry[5] = (h5 + 1<<24) >> 25 + h6 += carry[5] + h5 -= carry[5] << 25 + carry[7] = (h7 + 1<<24) >> 25 + h8 += carry[7] + h7 -= carry[7] << 25 + + carry[0] = (h0 + 1<<25) >> 26 + h1 += carry[0] + h0 -= carry[0] << 26 + carry[2] = (h2 + 1<<25) >> 26 + h3 += carry[2] + h2 -= carry[2] << 26 + carry[4] = (h4 + 1<<25) >> 26 + h5 += carry[4] + h4 -= carry[4] << 26 + carry[6] = (h6 + 1<<25) >> 26 + h7 += carry[6] + h6 -= carry[6] << 26 + carry[8] = (h8 + 1<<25) >> 26 + h9 += carry[8] + h8 -= carry[8] << 26 + + dst[0] = int32(h0) + dst[1] = int32(h1) + dst[2] = int32(h2) + dst[3] = int32(h3) + dst[4] = int32(h4) + dst[5] = int32(h5) + dst[6] = int32(h6) + dst[7] = int32(h7) + dst[8] = int32(h8) + dst[9] = int32(h9) +} + +// feToBytes marshals h to s. +// Preconditions: +// |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc. +// +// Write p=2^255-19; q=floor(h/p). +// Basic claim: q = floor(2^(-255)(h + 19 2^(-25)h9 + 2^(-1))). +// +// Proof: +// Have |h|<=p so |q|<=1 so |19^2 2^(-255) q|<1/4. +// Also have |h-2^230 h9|<2^230 so |19 2^(-255)(h-2^230 h9)|<1/4. +// +// Write y=2^(-1)-19^2 2^(-255)q-19 2^(-255)(h-2^230 h9). +// Then 0> 25 + q = (h[0] + q) >> 26 + q = (h[1] + q) >> 25 + q = (h[2] + q) >> 26 + q = (h[3] + q) >> 25 + q = (h[4] + q) >> 26 + q = (h[5] + q) >> 25 + q = (h[6] + q) >> 26 + q = (h[7] + q) >> 25 + q = (h[8] + q) >> 26 + q = (h[9] + q) >> 25 + + // Goal: Output h-(2^255-19)q, which is between 0 and 2^255-20. + h[0] += 19 * q + // Goal: Output h-2^255 q, which is between 0 and 2^255-20. + + carry[0] = h[0] >> 26 + h[1] += carry[0] + h[0] -= carry[0] << 26 + carry[1] = h[1] >> 25 + h[2] += carry[1] + h[1] -= carry[1] << 25 + carry[2] = h[2] >> 26 + h[3] += carry[2] + h[2] -= carry[2] << 26 + carry[3] = h[3] >> 25 + h[4] += carry[3] + h[3] -= carry[3] << 25 + carry[4] = h[4] >> 26 + h[5] += carry[4] + h[4] -= carry[4] << 26 + carry[5] = h[5] >> 25 + h[6] += carry[5] + h[5] -= carry[5] << 25 + carry[6] = h[6] >> 26 + h[7] += carry[6] + h[6] -= carry[6] << 26 + carry[7] = h[7] >> 25 + h[8] += carry[7] + h[7] -= carry[7] << 25 + carry[8] = h[8] >> 26 + h[9] += carry[8] + h[8] -= carry[8] << 26 + carry[9] = h[9] >> 25 + h[9] -= carry[9] << 25 + // h10 = carry9 + + // Goal: Output h[0]+...+2^255 h10-2^255 q, which is between 0 and 2^255-20. + // Have h[0]+...+2^230 h[9] between 0 and 2^255-1; + // evidently 2^255 h10-2^255 q = 0. + // Goal: Output h[0]+...+2^230 h[9]. + + s[0] = byte(h[0] >> 0) + s[1] = byte(h[0] >> 8) + s[2] = byte(h[0] >> 16) + s[3] = byte((h[0] >> 24) | (h[1] << 2)) + s[4] = byte(h[1] >> 6) + s[5] = byte(h[1] >> 14) + s[6] = byte((h[1] >> 22) | (h[2] << 3)) + s[7] = byte(h[2] >> 5) + s[8] = byte(h[2] >> 13) + s[9] = byte((h[2] >> 21) | (h[3] << 5)) + s[10] = byte(h[3] >> 3) + s[11] = byte(h[3] >> 11) + s[12] = byte((h[3] >> 19) | (h[4] << 6)) + s[13] = byte(h[4] >> 2) + s[14] = byte(h[4] >> 10) + s[15] = byte(h[4] >> 18) + s[16] = byte(h[5] >> 0) + s[17] = byte(h[5] >> 8) + s[18] = byte(h[5] >> 16) + s[19] = byte((h[5] >> 24) | (h[6] << 1)) + s[20] = byte(h[6] >> 7) + s[21] = byte(h[6] >> 15) + s[22] = byte((h[6] >> 23) | (h[7] << 3)) + s[23] = byte(h[7] >> 5) + s[24] = byte(h[7] >> 13) + s[25] = byte((h[7] >> 21) | (h[8] << 4)) + s[26] = byte(h[8] >> 4) + s[27] = byte(h[8] >> 12) + s[28] = byte((h[8] >> 20) | (h[9] << 6)) + s[29] = byte(h[9] >> 2) + s[30] = byte(h[9] >> 10) + s[31] = byte(h[9] >> 18) +} + +// feMul calculates h = f * g +// Can overlap h with f or g. +// +// Preconditions: +// |f| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc. +// |g| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc. +// +// Postconditions: +// |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc. +// +// Notes on implementation strategy: +// +// Using schoolbook multiplication. +// Karatsuba would save a little in some cost models. +// +// Most multiplications by 2 and 19 are 32-bit precomputations; +// cheaper than 64-bit postcomputations. +// +// There is one remaining multiplication by 19 in the carry chain; +// one *19 precomputation can be merged into this, +// but the resulting data flow is considerably less clean. +// +// There are 12 carries below. +// 10 of them are 2-way parallelizable and vectorizable. +// Can get away with 11 carries, but then data flow is much deeper. +// +// With tighter constraints on inputs can squeeze carries into int32. +func feMul(h, f, g *fieldElement) { + f0 := f[0] + f1 := f[1] + f2 := f[2] + f3 := f[3] + f4 := f[4] + f5 := f[5] + f6 := f[6] + f7 := f[7] + f8 := f[8] + f9 := f[9] + g0 := g[0] + g1 := g[1] + g2 := g[2] + g3 := g[3] + g4 := g[4] + g5 := g[5] + g6 := g[6] + g7 := g[7] + g8 := g[8] + g9 := g[9] + g1_19 := 19 * g1 // 1.4*2^29 + g2_19 := 19 * g2 // 1.4*2^30; still ok + g3_19 := 19 * g3 + g4_19 := 19 * g4 + g5_19 := 19 * g5 + g6_19 := 19 * g6 + g7_19 := 19 * g7 + g8_19 := 19 * g8 + g9_19 := 19 * g9 + f1_2 := 2 * f1 + f3_2 := 2 * f3 + f5_2 := 2 * f5 + f7_2 := 2 * f7 + f9_2 := 2 * f9 + f0g0 := int64(f0) * int64(g0) + f0g1 := int64(f0) * int64(g1) + f0g2 := int64(f0) * int64(g2) + f0g3 := int64(f0) * int64(g3) + f0g4 := int64(f0) * int64(g4) + f0g5 := int64(f0) * int64(g5) + f0g6 := int64(f0) * int64(g6) + f0g7 := int64(f0) * int64(g7) + f0g8 := int64(f0) * int64(g8) + f0g9 := int64(f0) * int64(g9) + f1g0 := int64(f1) * int64(g0) + f1g1_2 := int64(f1_2) * int64(g1) + f1g2 := int64(f1) * int64(g2) + f1g3_2 := int64(f1_2) * int64(g3) + f1g4 := int64(f1) * int64(g4) + f1g5_2 := int64(f1_2) * int64(g5) + f1g6 := int64(f1) * int64(g6) + f1g7_2 := int64(f1_2) * int64(g7) + f1g8 := int64(f1) * int64(g8) + f1g9_38 := int64(f1_2) * int64(g9_19) + f2g0 := int64(f2) * int64(g0) + f2g1 := int64(f2) * int64(g1) + f2g2 := int64(f2) * int64(g2) + f2g3 := int64(f2) * int64(g3) + f2g4 := int64(f2) * int64(g4) + f2g5 := int64(f2) * int64(g5) + f2g6 := int64(f2) * int64(g6) + f2g7 := int64(f2) * int64(g7) + f2g8_19 := int64(f2) * int64(g8_19) + f2g9_19 := int64(f2) * int64(g9_19) + f3g0 := int64(f3) * int64(g0) + f3g1_2 := int64(f3_2) * int64(g1) + f3g2 := int64(f3) * int64(g2) + f3g3_2 := int64(f3_2) * int64(g3) + f3g4 := int64(f3) * int64(g4) + f3g5_2 := int64(f3_2) * int64(g5) + f3g6 := int64(f3) * int64(g6) + f3g7_38 := int64(f3_2) * int64(g7_19) + f3g8_19 := int64(f3) * int64(g8_19) + f3g9_38 := int64(f3_2) * int64(g9_19) + f4g0 := int64(f4) * int64(g0) + f4g1 := int64(f4) * int64(g1) + f4g2 := int64(f4) * int64(g2) + f4g3 := int64(f4) * int64(g3) + f4g4 := int64(f4) * int64(g4) + f4g5 := int64(f4) * int64(g5) + f4g6_19 := int64(f4) * int64(g6_19) + f4g7_19 := int64(f4) * int64(g7_19) + f4g8_19 := int64(f4) * int64(g8_19) + f4g9_19 := int64(f4) * int64(g9_19) + f5g0 := int64(f5) * int64(g0) + f5g1_2 := int64(f5_2) * int64(g1) + f5g2 := int64(f5) * int64(g2) + f5g3_2 := int64(f5_2) * int64(g3) + f5g4 := int64(f5) * int64(g4) + f5g5_38 := int64(f5_2) * int64(g5_19) + f5g6_19 := int64(f5) * int64(g6_19) + f5g7_38 := int64(f5_2) * int64(g7_19) + f5g8_19 := int64(f5) * int64(g8_19) + f5g9_38 := int64(f5_2) * int64(g9_19) + f6g0 := int64(f6) * int64(g0) + f6g1 := int64(f6) * int64(g1) + f6g2 := int64(f6) * int64(g2) + f6g3 := int64(f6) * int64(g3) + f6g4_19 := int64(f6) * int64(g4_19) + f6g5_19 := int64(f6) * int64(g5_19) + f6g6_19 := int64(f6) * int64(g6_19) + f6g7_19 := int64(f6) * int64(g7_19) + f6g8_19 := int64(f6) * int64(g8_19) + f6g9_19 := int64(f6) * int64(g9_19) + f7g0 := int64(f7) * int64(g0) + f7g1_2 := int64(f7_2) * int64(g1) + f7g2 := int64(f7) * int64(g2) + f7g3_38 := int64(f7_2) * int64(g3_19) + f7g4_19 := int64(f7) * int64(g4_19) + f7g5_38 := int64(f7_2) * int64(g5_19) + f7g6_19 := int64(f7) * int64(g6_19) + f7g7_38 := int64(f7_2) * int64(g7_19) + f7g8_19 := int64(f7) * int64(g8_19) + f7g9_38 := int64(f7_2) * int64(g9_19) + f8g0 := int64(f8) * int64(g0) + f8g1 := int64(f8) * int64(g1) + f8g2_19 := int64(f8) * int64(g2_19) + f8g3_19 := int64(f8) * int64(g3_19) + f8g4_19 := int64(f8) * int64(g4_19) + f8g5_19 := int64(f8) * int64(g5_19) + f8g6_19 := int64(f8) * int64(g6_19) + f8g7_19 := int64(f8) * int64(g7_19) + f8g8_19 := int64(f8) * int64(g8_19) + f8g9_19 := int64(f8) * int64(g9_19) + f9g0 := int64(f9) * int64(g0) + f9g1_38 := int64(f9_2) * int64(g1_19) + f9g2_19 := int64(f9) * int64(g2_19) + f9g3_38 := int64(f9_2) * int64(g3_19) + f9g4_19 := int64(f9) * int64(g4_19) + f9g5_38 := int64(f9_2) * int64(g5_19) + f9g6_19 := int64(f9) * int64(g6_19) + f9g7_38 := int64(f9_2) * int64(g7_19) + f9g8_19 := int64(f9) * int64(g8_19) + f9g9_38 := int64(f9_2) * int64(g9_19) + h0 := f0g0 + f1g9_38 + f2g8_19 + f3g7_38 + f4g6_19 + f5g5_38 + f6g4_19 + f7g3_38 + f8g2_19 + f9g1_38 + h1 := f0g1 + f1g0 + f2g9_19 + f3g8_19 + f4g7_19 + f5g6_19 + f6g5_19 + f7g4_19 + f8g3_19 + f9g2_19 + h2 := f0g2 + f1g1_2 + f2g0 + f3g9_38 + f4g8_19 + f5g7_38 + f6g6_19 + f7g5_38 + f8g4_19 + f9g3_38 + h3 := f0g3 + f1g2 + f2g1 + f3g0 + f4g9_19 + f5g8_19 + f6g7_19 + f7g6_19 + f8g5_19 + f9g4_19 + h4 := f0g4 + f1g3_2 + f2g2 + f3g1_2 + f4g0 + f5g9_38 + f6g8_19 + f7g7_38 + f8g6_19 + f9g5_38 + h5 := f0g5 + f1g4 + f2g3 + f3g2 + f4g1 + f5g0 + f6g9_19 + f7g8_19 + f8g7_19 + f9g6_19 + h6 := f0g6 + f1g5_2 + f2g4 + f3g3_2 + f4g2 + f5g1_2 + f6g0 + f7g9_38 + f8g8_19 + f9g7_38 + h7 := f0g7 + f1g6 + f2g5 + f3g4 + f4g3 + f5g2 + f6g1 + f7g0 + f8g9_19 + f9g8_19 + h8 := f0g8 + f1g7_2 + f2g6 + f3g5_2 + f4g4 + f5g3_2 + f6g2 + f7g1_2 + f8g0 + f9g9_38 + h9 := f0g9 + f1g8 + f2g7 + f3g6 + f4g5 + f5g4 + f6g3 + f7g2 + f8g1 + f9g0 + var carry [10]int64 + + // |h0| <= (1.1*1.1*2^52*(1+19+19+19+19)+1.1*1.1*2^50*(38+38+38+38+38)) + // i.e. |h0| <= 1.2*2^59; narrower ranges for h2, h4, h6, h8 + // |h1| <= (1.1*1.1*2^51*(1+1+19+19+19+19+19+19+19+19)) + // i.e. |h1| <= 1.5*2^58; narrower ranges for h3, h5, h7, h9 + + carry[0] = (h0 + (1 << 25)) >> 26 + h1 += carry[0] + h0 -= carry[0] << 26 + carry[4] = (h4 + (1 << 25)) >> 26 + h5 += carry[4] + h4 -= carry[4] << 26 + // |h0| <= 2^25 + // |h4| <= 2^25 + // |h1| <= 1.51*2^58 + // |h5| <= 1.51*2^58 + + carry[1] = (h1 + (1 << 24)) >> 25 + h2 += carry[1] + h1 -= carry[1] << 25 + carry[5] = (h5 + (1 << 24)) >> 25 + h6 += carry[5] + h5 -= carry[5] << 25 + // |h1| <= 2^24; from now on fits into int32 + // |h5| <= 2^24; from now on fits into int32 + // |h2| <= 1.21*2^59 + // |h6| <= 1.21*2^59 + + carry[2] = (h2 + (1 << 25)) >> 26 + h3 += carry[2] + h2 -= carry[2] << 26 + carry[6] = (h6 + (1 << 25)) >> 26 + h7 += carry[6] + h6 -= carry[6] << 26 + // |h2| <= 2^25; from now on fits into int32 unchanged + // |h6| <= 2^25; from now on fits into int32 unchanged + // |h3| <= 1.51*2^58 + // |h7| <= 1.51*2^58 + + carry[3] = (h3 + (1 << 24)) >> 25 + h4 += carry[3] + h3 -= carry[3] << 25 + carry[7] = (h7 + (1 << 24)) >> 25 + h8 += carry[7] + h7 -= carry[7] << 25 + // |h3| <= 2^24; from now on fits into int32 unchanged + // |h7| <= 2^24; from now on fits into int32 unchanged + // |h4| <= 1.52*2^33 + // |h8| <= 1.52*2^33 + + carry[4] = (h4 + (1 << 25)) >> 26 + h5 += carry[4] + h4 -= carry[4] << 26 + carry[8] = (h8 + (1 << 25)) >> 26 + h9 += carry[8] + h8 -= carry[8] << 26 + // |h4| <= 2^25; from now on fits into int32 unchanged + // |h8| <= 2^25; from now on fits into int32 unchanged + // |h5| <= 1.01*2^24 + // |h9| <= 1.51*2^58 + + carry[9] = (h9 + (1 << 24)) >> 25 + h0 += carry[9] * 19 + h9 -= carry[9] << 25 + // |h9| <= 2^24; from now on fits into int32 unchanged + // |h0| <= 1.8*2^37 + + carry[0] = (h0 + (1 << 25)) >> 26 + h1 += carry[0] + h0 -= carry[0] << 26 + // |h0| <= 2^25; from now on fits into int32 unchanged + // |h1| <= 1.01*2^24 + + h[0] = int32(h0) + h[1] = int32(h1) + h[2] = int32(h2) + h[3] = int32(h3) + h[4] = int32(h4) + h[5] = int32(h5) + h[6] = int32(h6) + h[7] = int32(h7) + h[8] = int32(h8) + h[9] = int32(h9) +} + +// feSquare calculates h = f*f. Can overlap h with f. +// +// Preconditions: +// |f| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc. +// +// Postconditions: +// |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc. +func feSquare(h, f *fieldElement) { + f0 := f[0] + f1 := f[1] + f2 := f[2] + f3 := f[3] + f4 := f[4] + f5 := f[5] + f6 := f[6] + f7 := f[7] + f8 := f[8] + f9 := f[9] + f0_2 := 2 * f0 + f1_2 := 2 * f1 + f2_2 := 2 * f2 + f3_2 := 2 * f3 + f4_2 := 2 * f4 + f5_2 := 2 * f5 + f6_2 := 2 * f6 + f7_2 := 2 * f7 + f5_38 := 38 * f5 // 1.31*2^30 + f6_19 := 19 * f6 // 1.31*2^30 + f7_38 := 38 * f7 // 1.31*2^30 + f8_19 := 19 * f8 // 1.31*2^30 + f9_38 := 38 * f9 // 1.31*2^30 + f0f0 := int64(f0) * int64(f0) + f0f1_2 := int64(f0_2) * int64(f1) + f0f2_2 := int64(f0_2) * int64(f2) + f0f3_2 := int64(f0_2) * int64(f3) + f0f4_2 := int64(f0_2) * int64(f4) + f0f5_2 := int64(f0_2) * int64(f5) + f0f6_2 := int64(f0_2) * int64(f6) + f0f7_2 := int64(f0_2) * int64(f7) + f0f8_2 := int64(f0_2) * int64(f8) + f0f9_2 := int64(f0_2) * int64(f9) + f1f1_2 := int64(f1_2) * int64(f1) + f1f2_2 := int64(f1_2) * int64(f2) + f1f3_4 := int64(f1_2) * int64(f3_2) + f1f4_2 := int64(f1_2) * int64(f4) + f1f5_4 := int64(f1_2) * int64(f5_2) + f1f6_2 := int64(f1_2) * int64(f6) + f1f7_4 := int64(f1_2) * int64(f7_2) + f1f8_2 := int64(f1_2) * int64(f8) + f1f9_76 := int64(f1_2) * int64(f9_38) + f2f2 := int64(f2) * int64(f2) + f2f3_2 := int64(f2_2) * int64(f3) + f2f4_2 := int64(f2_2) * int64(f4) + f2f5_2 := int64(f2_2) * int64(f5) + f2f6_2 := int64(f2_2) * int64(f6) + f2f7_2 := int64(f2_2) * int64(f7) + f2f8_38 := int64(f2_2) * int64(f8_19) + f2f9_38 := int64(f2) * int64(f9_38) + f3f3_2 := int64(f3_2) * int64(f3) + f3f4_2 := int64(f3_2) * int64(f4) + f3f5_4 := int64(f3_2) * int64(f5_2) + f3f6_2 := int64(f3_2) * int64(f6) + f3f7_76 := int64(f3_2) * int64(f7_38) + f3f8_38 := int64(f3_2) * int64(f8_19) + f3f9_76 := int64(f3_2) * int64(f9_38) + f4f4 := int64(f4) * int64(f4) + f4f5_2 := int64(f4_2) * int64(f5) + f4f6_38 := int64(f4_2) * int64(f6_19) + f4f7_38 := int64(f4) * int64(f7_38) + f4f8_38 := int64(f4_2) * int64(f8_19) + f4f9_38 := int64(f4) * int64(f9_38) + f5f5_38 := int64(f5) * int64(f5_38) + f5f6_38 := int64(f5_2) * int64(f6_19) + f5f7_76 := int64(f5_2) * int64(f7_38) + f5f8_38 := int64(f5_2) * int64(f8_19) + f5f9_76 := int64(f5_2) * int64(f9_38) + f6f6_19 := int64(f6) * int64(f6_19) + f6f7_38 := int64(f6) * int64(f7_38) + f6f8_38 := int64(f6_2) * int64(f8_19) + f6f9_38 := int64(f6) * int64(f9_38) + f7f7_38 := int64(f7) * int64(f7_38) + f7f8_38 := int64(f7_2) * int64(f8_19) + f7f9_76 := int64(f7_2) * int64(f9_38) + f8f8_19 := int64(f8) * int64(f8_19) + f8f9_38 := int64(f8) * int64(f9_38) + f9f9_38 := int64(f9) * int64(f9_38) + h0 := f0f0 + f1f9_76 + f2f8_38 + f3f7_76 + f4f6_38 + f5f5_38 + h1 := f0f1_2 + f2f9_38 + f3f8_38 + f4f7_38 + f5f6_38 + h2 := f0f2_2 + f1f1_2 + f3f9_76 + f4f8_38 + f5f7_76 + f6f6_19 + h3 := f0f3_2 + f1f2_2 + f4f9_38 + f5f8_38 + f6f7_38 + h4 := f0f4_2 + f1f3_4 + f2f2 + f5f9_76 + f6f8_38 + f7f7_38 + h5 := f0f5_2 + f1f4_2 + f2f3_2 + f6f9_38 + f7f8_38 + h6 := f0f6_2 + f1f5_4 + f2f4_2 + f3f3_2 + f7f9_76 + f8f8_19 + h7 := f0f7_2 + f1f6_2 + f2f5_2 + f3f4_2 + f8f9_38 + h8 := f0f8_2 + f1f7_4 + f2f6_2 + f3f5_4 + f4f4 + f9f9_38 + h9 := f0f9_2 + f1f8_2 + f2f7_2 + f3f6_2 + f4f5_2 + var carry [10]int64 + + carry[0] = (h0 + (1 << 25)) >> 26 + h1 += carry[0] + h0 -= carry[0] << 26 + carry[4] = (h4 + (1 << 25)) >> 26 + h5 += carry[4] + h4 -= carry[4] << 26 + + carry[1] = (h1 + (1 << 24)) >> 25 + h2 += carry[1] + h1 -= carry[1] << 25 + carry[5] = (h5 + (1 << 24)) >> 25 + h6 += carry[5] + h5 -= carry[5] << 25 + + carry[2] = (h2 + (1 << 25)) >> 26 + h3 += carry[2] + h2 -= carry[2] << 26 + carry[6] = (h6 + (1 << 25)) >> 26 + h7 += carry[6] + h6 -= carry[6] << 26 + + carry[3] = (h3 + (1 << 24)) >> 25 + h4 += carry[3] + h3 -= carry[3] << 25 + carry[7] = (h7 + (1 << 24)) >> 25 + h8 += carry[7] + h7 -= carry[7] << 25 + + carry[4] = (h4 + (1 << 25)) >> 26 + h5 += carry[4] + h4 -= carry[4] << 26 + carry[8] = (h8 + (1 << 25)) >> 26 + h9 += carry[8] + h8 -= carry[8] << 26 + + carry[9] = (h9 + (1 << 24)) >> 25 + h0 += carry[9] * 19 + h9 -= carry[9] << 25 + + carry[0] = (h0 + (1 << 25)) >> 26 + h1 += carry[0] + h0 -= carry[0] << 26 + + h[0] = int32(h0) + h[1] = int32(h1) + h[2] = int32(h2) + h[3] = int32(h3) + h[4] = int32(h4) + h[5] = int32(h5) + h[6] = int32(h6) + h[7] = int32(h7) + h[8] = int32(h8) + h[9] = int32(h9) +} + +// feMul121666 calculates h = f * 121666. Can overlap h with f. +// +// Preconditions: +// |f| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc. +// +// Postconditions: +// |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc. +func feMul121666(h, f *fieldElement) { + h0 := int64(f[0]) * 121666 + h1 := int64(f[1]) * 121666 + h2 := int64(f[2]) * 121666 + h3 := int64(f[3]) * 121666 + h4 := int64(f[4]) * 121666 + h5 := int64(f[5]) * 121666 + h6 := int64(f[6]) * 121666 + h7 := int64(f[7]) * 121666 + h8 := int64(f[8]) * 121666 + h9 := int64(f[9]) * 121666 + var carry [10]int64 + + carry[9] = (h9 + (1 << 24)) >> 25 + h0 += carry[9] * 19 + h9 -= carry[9] << 25 + carry[1] = (h1 + (1 << 24)) >> 25 + h2 += carry[1] + h1 -= carry[1] << 25 + carry[3] = (h3 + (1 << 24)) >> 25 + h4 += carry[3] + h3 -= carry[3] << 25 + carry[5] = (h5 + (1 << 24)) >> 25 + h6 += carry[5] + h5 -= carry[5] << 25 + carry[7] = (h7 + (1 << 24)) >> 25 + h8 += carry[7] + h7 -= carry[7] << 25 + + carry[0] = (h0 + (1 << 25)) >> 26 + h1 += carry[0] + h0 -= carry[0] << 26 + carry[2] = (h2 + (1 << 25)) >> 26 + h3 += carry[2] + h2 -= carry[2] << 26 + carry[4] = (h4 + (1 << 25)) >> 26 + h5 += carry[4] + h4 -= carry[4] << 26 + carry[6] = (h6 + (1 << 25)) >> 26 + h7 += carry[6] + h6 -= carry[6] << 26 + carry[8] = (h8 + (1 << 25)) >> 26 + h9 += carry[8] + h8 -= carry[8] << 26 + + h[0] = int32(h0) + h[1] = int32(h1) + h[2] = int32(h2) + h[3] = int32(h3) + h[4] = int32(h4) + h[5] = int32(h5) + h[6] = int32(h6) + h[7] = int32(h7) + h[8] = int32(h8) + h[9] = int32(h9) +} + +// feInvert sets out = z^-1. +func feInvert(out, z *fieldElement) { + var t0, t1, t2, t3 fieldElement + var i int + + feSquare(&t0, z) + for i = 1; i < 1; i++ { + feSquare(&t0, &t0) + } + feSquare(&t1, &t0) + for i = 1; i < 2; i++ { + feSquare(&t1, &t1) + } + feMul(&t1, z, &t1) + feMul(&t0, &t0, &t1) + feSquare(&t2, &t0) + for i = 1; i < 1; i++ { + feSquare(&t2, &t2) + } + feMul(&t1, &t1, &t2) + feSquare(&t2, &t1) + for i = 1; i < 5; i++ { + feSquare(&t2, &t2) + } + feMul(&t1, &t2, &t1) + feSquare(&t2, &t1) + for i = 1; i < 10; i++ { + feSquare(&t2, &t2) + } + feMul(&t2, &t2, &t1) + feSquare(&t3, &t2) + for i = 1; i < 20; i++ { + feSquare(&t3, &t3) + } + feMul(&t2, &t3, &t2) + feSquare(&t2, &t2) + for i = 1; i < 10; i++ { + feSquare(&t2, &t2) + } + feMul(&t1, &t2, &t1) + feSquare(&t2, &t1) + for i = 1; i < 50; i++ { + feSquare(&t2, &t2) + } + feMul(&t2, &t2, &t1) + feSquare(&t3, &t2) + for i = 1; i < 100; i++ { + feSquare(&t3, &t3) + } + feMul(&t2, &t3, &t2) + feSquare(&t2, &t2) + for i = 1; i < 50; i++ { + feSquare(&t2, &t2) + } + feMul(&t1, &t2, &t1) + feSquare(&t1, &t1) + for i = 1; i < 5; i++ { + feSquare(&t1, &t1) + } + feMul(out, &t1, &t0) +} + +func scalarMult(out, in, base *[32]byte) { + var e [32]byte + + copy(e[:], in[:]) + e[0] &= 248 + e[31] &= 127 + e[31] |= 64 + + var x1, x2, z2, x3, z3, tmp0, tmp1 fieldElement + feFromBytes(&x1, base) + feOne(&x2) + feCopy(&x3, &x1) + feOne(&z3) + + swap := int32(0) + for pos := 254; pos >= 0; pos-- { + b := e[pos/8] >> uint(pos&7) + b &= 1 + swap ^= int32(b) + feCSwap(&x2, &x3, swap) + feCSwap(&z2, &z3, swap) + swap = int32(b) + + feSub(&tmp0, &x3, &z3) + feSub(&tmp1, &x2, &z2) + feAdd(&x2, &x2, &z2) + feAdd(&z2, &x3, &z3) + feMul(&z3, &tmp0, &x2) + feMul(&z2, &z2, &tmp1) + feSquare(&tmp0, &tmp1) + feSquare(&tmp1, &x2) + feAdd(&x3, &z3, &z2) + feSub(&z2, &z3, &z2) + feMul(&x2, &tmp1, &tmp0) + feSub(&tmp1, &tmp1, &tmp0) + feSquare(&z2, &z2) + feMul121666(&z3, &tmp1) + feSquare(&x3, &x3) + feAdd(&tmp0, &tmp0, &z3) + feMul(&z3, &x1, &z2) + feMul(&z2, &tmp1, &tmp0) + } + + feCSwap(&x2, &x3, swap) + feCSwap(&z2, &z3, swap) + + feInvert(&z2, &z2) + feMul(&x2, &x2, &z2) + feToBytes(out, &x2) +} diff --git a/vendor/github.com/keybase/go-crypto/curve25519/curve_impl.go b/vendor/github.com/keybase/go-crypto/curve25519/curve_impl.go new file mode 100644 index 00000000..5f9eebeb --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/curve25519/curve_impl.go @@ -0,0 +1,113 @@ +package curve25519 + +import ( + "crypto/elliptic" + "math/big" + "sync" +) + +var cv25519 cv25519Curve + +type cv25519Curve struct { + *elliptic.CurveParams +} + +func copyReverse(dst []byte, src []byte) { + // Curve 25519 multiplication functions expect scalars in reverse + // order than PGP. To keep the curve25519Curve type consistent + // with other curves, we reverse it here. + for i, j := 0, len(src)-1; j >= 0; i, j = i+1, j-1 { + dst[i] = src[j] + } +} + +func (cv25519Curve) ScalarMult(x1, y1 *big.Int, scalar []byte) (x, y *big.Int) { + // Assume y1 is 0 with cv25519. + var dst [32]byte + var x1Bytes [32]byte + var scalarBytes [32]byte + + copy(x1Bytes[:], x1.Bytes()[:32]) + copyReverse(scalarBytes[:], scalar[:32]) + + scalarMult(&dst, &scalarBytes, &x1Bytes) + + x = new(big.Int).SetBytes(dst[:]) + y = new(big.Int) + return x, y +} + +func (cv25519Curve) ScalarBaseMult(scalar []byte) (x, y *big.Int) { + var dst [32]byte + var scalarBytes [32]byte + copyReverse(scalarBytes[:], scalar[:32]) + scalarMult(&dst, &scalarBytes, &basePoint) + x = new(big.Int).SetBytes(dst[:]) + y = new(big.Int) + return x, y +} + +func (cv25519Curve) IsOnCurve(bigX, bigY *big.Int) bool { + return bigY.Sign() == 0 // bigY == 0 ? +} + +// More information about 0x40 point format: +// https://tools.ietf.org/html/draft-koch-eddsa-for-openpgp-00#section-3 +// In addition to uncompressed point format described here: +// https://tools.ietf.org/html/rfc6637#section-6 + +func (cv25519Curve) MarshalType40(x, y *big.Int) []byte { + byteLen := 32 + + ret := make([]byte, 1+byteLen) + ret[0] = 0x40 + + xBytes := x.Bytes() + copy(ret[1+byteLen-len(xBytes):], xBytes) + return ret +} + +func (cv25519Curve) UnmarshalType40(data []byte) (x, y *big.Int) { + if len(data) != 1+32 { + return nil, nil + } + if data[0] != 0x40 { + return nil, nil + } + x = new(big.Int).SetBytes(data[1:]) + // Any x is a valid curve point. + return x, new(big.Int) +} + +// ToCurve25519 casts given elliptic.Curve type to Curve25519 type, or +// returns nil, false if cast was unsuccessful. +func ToCurve25519(cv elliptic.Curve) (cv25519Curve, bool) { + cv2, ok := cv.(cv25519Curve) + return cv2, ok +} + +func initCv25519() { + cv25519.CurveParams = &elliptic.CurveParams{Name: "Curve 25519"} + // Some code relies on these parameters being available for + // checking Curve coordinate length. They should not be used + // directly for any calculations. + cv25519.P, _ = new (big.Int).SetString("7fffffffffffffffffffffffffffffffffffffffffffffffffffffffffffffed", 16) + cv25519.N, _ = new (big.Int).SetString("1000000000000000000000000000000014def9dea2f79cd65812631a5cf5d3ed", 16) + cv25519.Gx, _ = new (big.Int).SetString("9", 16) + cv25519.Gy, _ = new (big.Int).SetString("20ae19a1b8a086b4e01edd2c7748d14c923d4d7e6d7c61b229e9c5a27eced3d9", 16) + cv25519.BitSize = 256 +} + +var initonce sync.Once + +// Cv25519 returns a Curve which (partially) implements Cv25519. Only +// ScalarMult and ScalarBaseMult are valid for this curve. Add and +// Double should not be used. +func Cv25519() elliptic.Curve { + initonce.Do(initCv25519) + return cv25519 +} + +func (curve cv25519Curve) Params() *elliptic.CurveParams { + return curve.CurveParams +} diff --git a/vendor/github.com/keybase/go-crypto/curve25519/doc.go b/vendor/github.com/keybase/go-crypto/curve25519/doc.go new file mode 100644 index 00000000..f7db9c1c --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/curve25519/doc.go @@ -0,0 +1,23 @@ +// Copyright 2012 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package curve25519 provides an implementation of scalar multiplication on +// the elliptic curve known as curve25519. See http://cr.yp.to/ecdh.html +package curve25519 + +// basePoint is the x coordinate of the generator of the curve. +var basePoint = [32]byte{9, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} + +// ScalarMult sets dst to the product in*base where dst and base are the x +// coordinates of group points and all values are in little-endian form. +func ScalarMult(dst, in, base *[32]byte) { + scalarMult(dst, in, base) +} + +// ScalarBaseMult sets dst to the product in*base where dst and base are the x +// coordinates of group points, base is the standard generator and all values +// are in little-endian form. +func ScalarBaseMult(dst, in *[32]byte) { + ScalarMult(dst, in, &basePoint) +} diff --git a/vendor/github.com/keybase/go-crypto/curve25519/freeze_amd64.s b/vendor/github.com/keybase/go-crypto/curve25519/freeze_amd64.s new file mode 100644 index 00000000..37599fac --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/curve25519/freeze_amd64.s @@ -0,0 +1,94 @@ +// Copyright 2012 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// This code was translated into a form compatible with 6a from the public +// domain sources in SUPERCOP: http://bench.cr.yp.to/supercop.html + +// +build amd64,!gccgo,!appengine + +// func freeze(inout *[5]uint64) +TEXT ·freeze(SB),7,$96-8 + MOVQ inout+0(FP), DI + + MOVQ SP,R11 + MOVQ $31,CX + NOTQ CX + ANDQ CX,SP + ADDQ $32,SP + + MOVQ R11,0(SP) + MOVQ R12,8(SP) + MOVQ R13,16(SP) + MOVQ R14,24(SP) + MOVQ R15,32(SP) + MOVQ BX,40(SP) + MOVQ BP,48(SP) + MOVQ 0(DI),SI + MOVQ 8(DI),DX + MOVQ 16(DI),CX + MOVQ 24(DI),R8 + MOVQ 32(DI),R9 + MOVQ ·REDMASK51(SB),AX + MOVQ AX,R10 + SUBQ $18,R10 + MOVQ $3,R11 +REDUCELOOP: + MOVQ SI,R12 + SHRQ $51,R12 + ANDQ AX,SI + ADDQ R12,DX + MOVQ DX,R12 + SHRQ $51,R12 + ANDQ AX,DX + ADDQ R12,CX + MOVQ CX,R12 + SHRQ $51,R12 + ANDQ AX,CX + ADDQ R12,R8 + MOVQ R8,R12 + SHRQ $51,R12 + ANDQ AX,R8 + ADDQ R12,R9 + MOVQ R9,R12 + SHRQ $51,R12 + ANDQ AX,R9 + IMUL3Q $19,R12,R12 + ADDQ R12,SI + SUBQ $1,R11 + JA REDUCELOOP + MOVQ $1,R12 + CMPQ R10,SI + CMOVQLT R11,R12 + CMPQ AX,DX + CMOVQNE R11,R12 + CMPQ AX,CX + CMOVQNE R11,R12 + CMPQ AX,R8 + CMOVQNE R11,R12 + CMPQ AX,R9 + CMOVQNE R11,R12 + NEGQ R12 + ANDQ R12,AX + ANDQ R12,R10 + SUBQ R10,SI + SUBQ AX,DX + SUBQ AX,CX + SUBQ AX,R8 + SUBQ AX,R9 + MOVQ SI,0(DI) + MOVQ DX,8(DI) + MOVQ CX,16(DI) + MOVQ R8,24(DI) + MOVQ R9,32(DI) + MOVQ 0(SP),R11 + MOVQ 8(SP),R12 + MOVQ 16(SP),R13 + MOVQ 24(SP),R14 + MOVQ 32(SP),R15 + MOVQ 40(SP),BX + MOVQ 48(SP),BP + MOVQ R11,SP + MOVQ DI,AX + MOVQ SI,DX + RET diff --git a/vendor/github.com/keybase/go-crypto/curve25519/ladderstep_amd64.s b/vendor/github.com/keybase/go-crypto/curve25519/ladderstep_amd64.s new file mode 100644 index 00000000..3949f9cf --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/curve25519/ladderstep_amd64.s @@ -0,0 +1,1398 @@ +// Copyright 2012 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// This code was translated into a form compatible with 6a from the public +// domain sources in SUPERCOP: http://bench.cr.yp.to/supercop.html + +// +build amd64,!gccgo,!appengine + +// func ladderstep(inout *[5][5]uint64) +TEXT ·ladderstep(SB),0,$384-8 + MOVQ inout+0(FP),DI + + MOVQ SP,R11 + MOVQ $31,CX + NOTQ CX + ANDQ CX,SP + ADDQ $32,SP + + MOVQ R11,0(SP) + MOVQ R12,8(SP) + MOVQ R13,16(SP) + MOVQ R14,24(SP) + MOVQ R15,32(SP) + MOVQ BX,40(SP) + MOVQ BP,48(SP) + MOVQ 40(DI),SI + MOVQ 48(DI),DX + MOVQ 56(DI),CX + MOVQ 64(DI),R8 + MOVQ 72(DI),R9 + MOVQ SI,AX + MOVQ DX,R10 + MOVQ CX,R11 + MOVQ R8,R12 + MOVQ R9,R13 + ADDQ ·_2P0(SB),AX + ADDQ ·_2P1234(SB),R10 + ADDQ ·_2P1234(SB),R11 + ADDQ ·_2P1234(SB),R12 + ADDQ ·_2P1234(SB),R13 + ADDQ 80(DI),SI + ADDQ 88(DI),DX + ADDQ 96(DI),CX + ADDQ 104(DI),R8 + ADDQ 112(DI),R9 + SUBQ 80(DI),AX + SUBQ 88(DI),R10 + SUBQ 96(DI),R11 + SUBQ 104(DI),R12 + SUBQ 112(DI),R13 + MOVQ SI,56(SP) + MOVQ DX,64(SP) + MOVQ CX,72(SP) + MOVQ R8,80(SP) + MOVQ R9,88(SP) + MOVQ AX,96(SP) + MOVQ R10,104(SP) + MOVQ R11,112(SP) + MOVQ R12,120(SP) + MOVQ R13,128(SP) + MOVQ 96(SP),AX + MULQ 96(SP) + MOVQ AX,SI + MOVQ DX,CX + MOVQ 96(SP),AX + SHLQ $1,AX + MULQ 104(SP) + MOVQ AX,R8 + MOVQ DX,R9 + MOVQ 96(SP),AX + SHLQ $1,AX + MULQ 112(SP) + MOVQ AX,R10 + MOVQ DX,R11 + MOVQ 96(SP),AX + SHLQ $1,AX + MULQ 120(SP) + MOVQ AX,R12 + MOVQ DX,R13 + MOVQ 96(SP),AX + SHLQ $1,AX + MULQ 128(SP) + MOVQ AX,R14 + MOVQ DX,R15 + MOVQ 104(SP),AX + MULQ 104(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 104(SP),AX + SHLQ $1,AX + MULQ 112(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 104(SP),AX + SHLQ $1,AX + MULQ 120(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 104(SP),DX + IMUL3Q $38,DX,AX + MULQ 128(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 112(SP),AX + MULQ 112(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 112(SP),DX + IMUL3Q $38,DX,AX + MULQ 120(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 112(SP),DX + IMUL3Q $38,DX,AX + MULQ 128(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 120(SP),DX + IMUL3Q $19,DX,AX + MULQ 120(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 120(SP),DX + IMUL3Q $38,DX,AX + MULQ 128(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 128(SP),DX + IMUL3Q $19,DX,AX + MULQ 128(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ ·REDMASK51(SB),DX + SHLQ $13,CX:SI + ANDQ DX,SI + SHLQ $13,R9:R8 + ANDQ DX,R8 + ADDQ CX,R8 + SHLQ $13,R11:R10 + ANDQ DX,R10 + ADDQ R9,R10 + SHLQ $13,R13:R12 + ANDQ DX,R12 + ADDQ R11,R12 + SHLQ $13,R15:R14 + ANDQ DX,R14 + ADDQ R13,R14 + IMUL3Q $19,R15,CX + ADDQ CX,SI + MOVQ SI,CX + SHRQ $51,CX + ADDQ R8,CX + ANDQ DX,SI + MOVQ CX,R8 + SHRQ $51,CX + ADDQ R10,CX + ANDQ DX,R8 + MOVQ CX,R9 + SHRQ $51,CX + ADDQ R12,CX + ANDQ DX,R9 + MOVQ CX,AX + SHRQ $51,CX + ADDQ R14,CX + ANDQ DX,AX + MOVQ CX,R10 + SHRQ $51,CX + IMUL3Q $19,CX,CX + ADDQ CX,SI + ANDQ DX,R10 + MOVQ SI,136(SP) + MOVQ R8,144(SP) + MOVQ R9,152(SP) + MOVQ AX,160(SP) + MOVQ R10,168(SP) + MOVQ 56(SP),AX + MULQ 56(SP) + MOVQ AX,SI + MOVQ DX,CX + MOVQ 56(SP),AX + SHLQ $1,AX + MULQ 64(SP) + MOVQ AX,R8 + MOVQ DX,R9 + MOVQ 56(SP),AX + SHLQ $1,AX + MULQ 72(SP) + MOVQ AX,R10 + MOVQ DX,R11 + MOVQ 56(SP),AX + SHLQ $1,AX + MULQ 80(SP) + MOVQ AX,R12 + MOVQ DX,R13 + MOVQ 56(SP),AX + SHLQ $1,AX + MULQ 88(SP) + MOVQ AX,R14 + MOVQ DX,R15 + MOVQ 64(SP),AX + MULQ 64(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 64(SP),AX + SHLQ $1,AX + MULQ 72(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 64(SP),AX + SHLQ $1,AX + MULQ 80(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 64(SP),DX + IMUL3Q $38,DX,AX + MULQ 88(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 72(SP),AX + MULQ 72(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 72(SP),DX + IMUL3Q $38,DX,AX + MULQ 80(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 72(SP),DX + IMUL3Q $38,DX,AX + MULQ 88(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 80(SP),DX + IMUL3Q $19,DX,AX + MULQ 80(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 80(SP),DX + IMUL3Q $38,DX,AX + MULQ 88(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 88(SP),DX + IMUL3Q $19,DX,AX + MULQ 88(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ ·REDMASK51(SB),DX + SHLQ $13,CX:SI + ANDQ DX,SI + SHLQ $13,R9:R8 + ANDQ DX,R8 + ADDQ CX,R8 + SHLQ $13,R11:R10 + ANDQ DX,R10 + ADDQ R9,R10 + SHLQ $13,R13:R12 + ANDQ DX,R12 + ADDQ R11,R12 + SHLQ $13,R15:R14 + ANDQ DX,R14 + ADDQ R13,R14 + IMUL3Q $19,R15,CX + ADDQ CX,SI + MOVQ SI,CX + SHRQ $51,CX + ADDQ R8,CX + ANDQ DX,SI + MOVQ CX,R8 + SHRQ $51,CX + ADDQ R10,CX + ANDQ DX,R8 + MOVQ CX,R9 + SHRQ $51,CX + ADDQ R12,CX + ANDQ DX,R9 + MOVQ CX,AX + SHRQ $51,CX + ADDQ R14,CX + ANDQ DX,AX + MOVQ CX,R10 + SHRQ $51,CX + IMUL3Q $19,CX,CX + ADDQ CX,SI + ANDQ DX,R10 + MOVQ SI,176(SP) + MOVQ R8,184(SP) + MOVQ R9,192(SP) + MOVQ AX,200(SP) + MOVQ R10,208(SP) + MOVQ SI,SI + MOVQ R8,DX + MOVQ R9,CX + MOVQ AX,R8 + MOVQ R10,R9 + ADDQ ·_2P0(SB),SI + ADDQ ·_2P1234(SB),DX + ADDQ ·_2P1234(SB),CX + ADDQ ·_2P1234(SB),R8 + ADDQ ·_2P1234(SB),R9 + SUBQ 136(SP),SI + SUBQ 144(SP),DX + SUBQ 152(SP),CX + SUBQ 160(SP),R8 + SUBQ 168(SP),R9 + MOVQ SI,216(SP) + MOVQ DX,224(SP) + MOVQ CX,232(SP) + MOVQ R8,240(SP) + MOVQ R9,248(SP) + MOVQ 120(DI),SI + MOVQ 128(DI),DX + MOVQ 136(DI),CX + MOVQ 144(DI),R8 + MOVQ 152(DI),R9 + MOVQ SI,AX + MOVQ DX,R10 + MOVQ CX,R11 + MOVQ R8,R12 + MOVQ R9,R13 + ADDQ ·_2P0(SB),AX + ADDQ ·_2P1234(SB),R10 + ADDQ ·_2P1234(SB),R11 + ADDQ ·_2P1234(SB),R12 + ADDQ ·_2P1234(SB),R13 + ADDQ 160(DI),SI + ADDQ 168(DI),DX + ADDQ 176(DI),CX + ADDQ 184(DI),R8 + ADDQ 192(DI),R9 + SUBQ 160(DI),AX + SUBQ 168(DI),R10 + SUBQ 176(DI),R11 + SUBQ 184(DI),R12 + SUBQ 192(DI),R13 + MOVQ SI,256(SP) + MOVQ DX,264(SP) + MOVQ CX,272(SP) + MOVQ R8,280(SP) + MOVQ R9,288(SP) + MOVQ AX,296(SP) + MOVQ R10,304(SP) + MOVQ R11,312(SP) + MOVQ R12,320(SP) + MOVQ R13,328(SP) + MOVQ 280(SP),SI + IMUL3Q $19,SI,AX + MOVQ AX,336(SP) + MULQ 112(SP) + MOVQ AX,SI + MOVQ DX,CX + MOVQ 288(SP),DX + IMUL3Q $19,DX,AX + MOVQ AX,344(SP) + MULQ 104(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 256(SP),AX + MULQ 96(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 256(SP),AX + MULQ 104(SP) + MOVQ AX,R8 + MOVQ DX,R9 + MOVQ 256(SP),AX + MULQ 112(SP) + MOVQ AX,R10 + MOVQ DX,R11 + MOVQ 256(SP),AX + MULQ 120(SP) + MOVQ AX,R12 + MOVQ DX,R13 + MOVQ 256(SP),AX + MULQ 128(SP) + MOVQ AX,R14 + MOVQ DX,R15 + MOVQ 264(SP),AX + MULQ 96(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 264(SP),AX + MULQ 104(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 264(SP),AX + MULQ 112(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 264(SP),AX + MULQ 120(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 264(SP),DX + IMUL3Q $19,DX,AX + MULQ 128(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 272(SP),AX + MULQ 96(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 272(SP),AX + MULQ 104(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 272(SP),AX + MULQ 112(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 272(SP),DX + IMUL3Q $19,DX,AX + MULQ 120(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 272(SP),DX + IMUL3Q $19,DX,AX + MULQ 128(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 280(SP),AX + MULQ 96(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 280(SP),AX + MULQ 104(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 336(SP),AX + MULQ 120(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 336(SP),AX + MULQ 128(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 288(SP),AX + MULQ 96(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 344(SP),AX + MULQ 112(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 344(SP),AX + MULQ 120(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 344(SP),AX + MULQ 128(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ ·REDMASK51(SB),DX + SHLQ $13,CX:SI + ANDQ DX,SI + SHLQ $13,R9:R8 + ANDQ DX,R8 + ADDQ CX,R8 + SHLQ $13,R11:R10 + ANDQ DX,R10 + ADDQ R9,R10 + SHLQ $13,R13:R12 + ANDQ DX,R12 + ADDQ R11,R12 + SHLQ $13,R15:R14 + ANDQ DX,R14 + ADDQ R13,R14 + IMUL3Q $19,R15,CX + ADDQ CX,SI + MOVQ SI,CX + SHRQ $51,CX + ADDQ R8,CX + MOVQ CX,R8 + SHRQ $51,CX + ANDQ DX,SI + ADDQ R10,CX + MOVQ CX,R9 + SHRQ $51,CX + ANDQ DX,R8 + ADDQ R12,CX + MOVQ CX,AX + SHRQ $51,CX + ANDQ DX,R9 + ADDQ R14,CX + MOVQ CX,R10 + SHRQ $51,CX + ANDQ DX,AX + IMUL3Q $19,CX,CX + ADDQ CX,SI + ANDQ DX,R10 + MOVQ SI,96(SP) + MOVQ R8,104(SP) + MOVQ R9,112(SP) + MOVQ AX,120(SP) + MOVQ R10,128(SP) + MOVQ 320(SP),SI + IMUL3Q $19,SI,AX + MOVQ AX,256(SP) + MULQ 72(SP) + MOVQ AX,SI + MOVQ DX,CX + MOVQ 328(SP),DX + IMUL3Q $19,DX,AX + MOVQ AX,264(SP) + MULQ 64(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 296(SP),AX + MULQ 56(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 296(SP),AX + MULQ 64(SP) + MOVQ AX,R8 + MOVQ DX,R9 + MOVQ 296(SP),AX + MULQ 72(SP) + MOVQ AX,R10 + MOVQ DX,R11 + MOVQ 296(SP),AX + MULQ 80(SP) + MOVQ AX,R12 + MOVQ DX,R13 + MOVQ 296(SP),AX + MULQ 88(SP) + MOVQ AX,R14 + MOVQ DX,R15 + MOVQ 304(SP),AX + MULQ 56(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 304(SP),AX + MULQ 64(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 304(SP),AX + MULQ 72(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 304(SP),AX + MULQ 80(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 304(SP),DX + IMUL3Q $19,DX,AX + MULQ 88(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 312(SP),AX + MULQ 56(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 312(SP),AX + MULQ 64(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 312(SP),AX + MULQ 72(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 312(SP),DX + IMUL3Q $19,DX,AX + MULQ 80(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 312(SP),DX + IMUL3Q $19,DX,AX + MULQ 88(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 320(SP),AX + MULQ 56(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 320(SP),AX + MULQ 64(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 256(SP),AX + MULQ 80(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 256(SP),AX + MULQ 88(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 328(SP),AX + MULQ 56(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 264(SP),AX + MULQ 72(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 264(SP),AX + MULQ 80(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 264(SP),AX + MULQ 88(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ ·REDMASK51(SB),DX + SHLQ $13,CX:SI + ANDQ DX,SI + SHLQ $13,R9:R8 + ANDQ DX,R8 + ADDQ CX,R8 + SHLQ $13,R11:R10 + ANDQ DX,R10 + ADDQ R9,R10 + SHLQ $13,R13:R12 + ANDQ DX,R12 + ADDQ R11,R12 + SHLQ $13,R15:R14 + ANDQ DX,R14 + ADDQ R13,R14 + IMUL3Q $19,R15,CX + ADDQ CX,SI + MOVQ SI,CX + SHRQ $51,CX + ADDQ R8,CX + MOVQ CX,R8 + SHRQ $51,CX + ANDQ DX,SI + ADDQ R10,CX + MOVQ CX,R9 + SHRQ $51,CX + ANDQ DX,R8 + ADDQ R12,CX + MOVQ CX,AX + SHRQ $51,CX + ANDQ DX,R9 + ADDQ R14,CX + MOVQ CX,R10 + SHRQ $51,CX + ANDQ DX,AX + IMUL3Q $19,CX,CX + ADDQ CX,SI + ANDQ DX,R10 + MOVQ SI,DX + MOVQ R8,CX + MOVQ R9,R11 + MOVQ AX,R12 + MOVQ R10,R13 + ADDQ ·_2P0(SB),DX + ADDQ ·_2P1234(SB),CX + ADDQ ·_2P1234(SB),R11 + ADDQ ·_2P1234(SB),R12 + ADDQ ·_2P1234(SB),R13 + ADDQ 96(SP),SI + ADDQ 104(SP),R8 + ADDQ 112(SP),R9 + ADDQ 120(SP),AX + ADDQ 128(SP),R10 + SUBQ 96(SP),DX + SUBQ 104(SP),CX + SUBQ 112(SP),R11 + SUBQ 120(SP),R12 + SUBQ 128(SP),R13 + MOVQ SI,120(DI) + MOVQ R8,128(DI) + MOVQ R9,136(DI) + MOVQ AX,144(DI) + MOVQ R10,152(DI) + MOVQ DX,160(DI) + MOVQ CX,168(DI) + MOVQ R11,176(DI) + MOVQ R12,184(DI) + MOVQ R13,192(DI) + MOVQ 120(DI),AX + MULQ 120(DI) + MOVQ AX,SI + MOVQ DX,CX + MOVQ 120(DI),AX + SHLQ $1,AX + MULQ 128(DI) + MOVQ AX,R8 + MOVQ DX,R9 + MOVQ 120(DI),AX + SHLQ $1,AX + MULQ 136(DI) + MOVQ AX,R10 + MOVQ DX,R11 + MOVQ 120(DI),AX + SHLQ $1,AX + MULQ 144(DI) + MOVQ AX,R12 + MOVQ DX,R13 + MOVQ 120(DI),AX + SHLQ $1,AX + MULQ 152(DI) + MOVQ AX,R14 + MOVQ DX,R15 + MOVQ 128(DI),AX + MULQ 128(DI) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 128(DI),AX + SHLQ $1,AX + MULQ 136(DI) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 128(DI),AX + SHLQ $1,AX + MULQ 144(DI) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 128(DI),DX + IMUL3Q $38,DX,AX + MULQ 152(DI) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 136(DI),AX + MULQ 136(DI) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 136(DI),DX + IMUL3Q $38,DX,AX + MULQ 144(DI) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 136(DI),DX + IMUL3Q $38,DX,AX + MULQ 152(DI) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 144(DI),DX + IMUL3Q $19,DX,AX + MULQ 144(DI) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 144(DI),DX + IMUL3Q $38,DX,AX + MULQ 152(DI) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 152(DI),DX + IMUL3Q $19,DX,AX + MULQ 152(DI) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ ·REDMASK51(SB),DX + SHLQ $13,CX:SI + ANDQ DX,SI + SHLQ $13,R9:R8 + ANDQ DX,R8 + ADDQ CX,R8 + SHLQ $13,R11:R10 + ANDQ DX,R10 + ADDQ R9,R10 + SHLQ $13,R13:R12 + ANDQ DX,R12 + ADDQ R11,R12 + SHLQ $13,R15:R14 + ANDQ DX,R14 + ADDQ R13,R14 + IMUL3Q $19,R15,CX + ADDQ CX,SI + MOVQ SI,CX + SHRQ $51,CX + ADDQ R8,CX + ANDQ DX,SI + MOVQ CX,R8 + SHRQ $51,CX + ADDQ R10,CX + ANDQ DX,R8 + MOVQ CX,R9 + SHRQ $51,CX + ADDQ R12,CX + ANDQ DX,R9 + MOVQ CX,AX + SHRQ $51,CX + ADDQ R14,CX + ANDQ DX,AX + MOVQ CX,R10 + SHRQ $51,CX + IMUL3Q $19,CX,CX + ADDQ CX,SI + ANDQ DX,R10 + MOVQ SI,120(DI) + MOVQ R8,128(DI) + MOVQ R9,136(DI) + MOVQ AX,144(DI) + MOVQ R10,152(DI) + MOVQ 160(DI),AX + MULQ 160(DI) + MOVQ AX,SI + MOVQ DX,CX + MOVQ 160(DI),AX + SHLQ $1,AX + MULQ 168(DI) + MOVQ AX,R8 + MOVQ DX,R9 + MOVQ 160(DI),AX + SHLQ $1,AX + MULQ 176(DI) + MOVQ AX,R10 + MOVQ DX,R11 + MOVQ 160(DI),AX + SHLQ $1,AX + MULQ 184(DI) + MOVQ AX,R12 + MOVQ DX,R13 + MOVQ 160(DI),AX + SHLQ $1,AX + MULQ 192(DI) + MOVQ AX,R14 + MOVQ DX,R15 + MOVQ 168(DI),AX + MULQ 168(DI) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 168(DI),AX + SHLQ $1,AX + MULQ 176(DI) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 168(DI),AX + SHLQ $1,AX + MULQ 184(DI) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 168(DI),DX + IMUL3Q $38,DX,AX + MULQ 192(DI) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 176(DI),AX + MULQ 176(DI) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 176(DI),DX + IMUL3Q $38,DX,AX + MULQ 184(DI) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 176(DI),DX + IMUL3Q $38,DX,AX + MULQ 192(DI) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 184(DI),DX + IMUL3Q $19,DX,AX + MULQ 184(DI) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 184(DI),DX + IMUL3Q $38,DX,AX + MULQ 192(DI) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 192(DI),DX + IMUL3Q $19,DX,AX + MULQ 192(DI) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ ·REDMASK51(SB),DX + SHLQ $13,CX:SI + ANDQ DX,SI + SHLQ $13,R9:R8 + ANDQ DX,R8 + ADDQ CX,R8 + SHLQ $13,R11:R10 + ANDQ DX,R10 + ADDQ R9,R10 + SHLQ $13,R13:R12 + ANDQ DX,R12 + ADDQ R11,R12 + SHLQ $13,R15:R14 + ANDQ DX,R14 + ADDQ R13,R14 + IMUL3Q $19,R15,CX + ADDQ CX,SI + MOVQ SI,CX + SHRQ $51,CX + ADDQ R8,CX + ANDQ DX,SI + MOVQ CX,R8 + SHRQ $51,CX + ADDQ R10,CX + ANDQ DX,R8 + MOVQ CX,R9 + SHRQ $51,CX + ADDQ R12,CX + ANDQ DX,R9 + MOVQ CX,AX + SHRQ $51,CX + ADDQ R14,CX + ANDQ DX,AX + MOVQ CX,R10 + SHRQ $51,CX + IMUL3Q $19,CX,CX + ADDQ CX,SI + ANDQ DX,R10 + MOVQ SI,160(DI) + MOVQ R8,168(DI) + MOVQ R9,176(DI) + MOVQ AX,184(DI) + MOVQ R10,192(DI) + MOVQ 184(DI),SI + IMUL3Q $19,SI,AX + MOVQ AX,56(SP) + MULQ 16(DI) + MOVQ AX,SI + MOVQ DX,CX + MOVQ 192(DI),DX + IMUL3Q $19,DX,AX + MOVQ AX,64(SP) + MULQ 8(DI) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 160(DI),AX + MULQ 0(DI) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 160(DI),AX + MULQ 8(DI) + MOVQ AX,R8 + MOVQ DX,R9 + MOVQ 160(DI),AX + MULQ 16(DI) + MOVQ AX,R10 + MOVQ DX,R11 + MOVQ 160(DI),AX + MULQ 24(DI) + MOVQ AX,R12 + MOVQ DX,R13 + MOVQ 160(DI),AX + MULQ 32(DI) + MOVQ AX,R14 + MOVQ DX,R15 + MOVQ 168(DI),AX + MULQ 0(DI) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 168(DI),AX + MULQ 8(DI) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 168(DI),AX + MULQ 16(DI) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 168(DI),AX + MULQ 24(DI) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 168(DI),DX + IMUL3Q $19,DX,AX + MULQ 32(DI) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 176(DI),AX + MULQ 0(DI) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 176(DI),AX + MULQ 8(DI) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 176(DI),AX + MULQ 16(DI) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 176(DI),DX + IMUL3Q $19,DX,AX + MULQ 24(DI) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 176(DI),DX + IMUL3Q $19,DX,AX + MULQ 32(DI) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 184(DI),AX + MULQ 0(DI) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 184(DI),AX + MULQ 8(DI) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 56(SP),AX + MULQ 24(DI) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 56(SP),AX + MULQ 32(DI) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 192(DI),AX + MULQ 0(DI) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 64(SP),AX + MULQ 16(DI) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 64(SP),AX + MULQ 24(DI) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 64(SP),AX + MULQ 32(DI) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ ·REDMASK51(SB),DX + SHLQ $13,CX:SI + ANDQ DX,SI + SHLQ $13,R9:R8 + ANDQ DX,R8 + ADDQ CX,R8 + SHLQ $13,R11:R10 + ANDQ DX,R10 + ADDQ R9,R10 + SHLQ $13,R13:R12 + ANDQ DX,R12 + ADDQ R11,R12 + SHLQ $13,R15:R14 + ANDQ DX,R14 + ADDQ R13,R14 + IMUL3Q $19,R15,CX + ADDQ CX,SI + MOVQ SI,CX + SHRQ $51,CX + ADDQ R8,CX + MOVQ CX,R8 + SHRQ $51,CX + ANDQ DX,SI + ADDQ R10,CX + MOVQ CX,R9 + SHRQ $51,CX + ANDQ DX,R8 + ADDQ R12,CX + MOVQ CX,AX + SHRQ $51,CX + ANDQ DX,R9 + ADDQ R14,CX + MOVQ CX,R10 + SHRQ $51,CX + ANDQ DX,AX + IMUL3Q $19,CX,CX + ADDQ CX,SI + ANDQ DX,R10 + MOVQ SI,160(DI) + MOVQ R8,168(DI) + MOVQ R9,176(DI) + MOVQ AX,184(DI) + MOVQ R10,192(DI) + MOVQ 200(SP),SI + IMUL3Q $19,SI,AX + MOVQ AX,56(SP) + MULQ 152(SP) + MOVQ AX,SI + MOVQ DX,CX + MOVQ 208(SP),DX + IMUL3Q $19,DX,AX + MOVQ AX,64(SP) + MULQ 144(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 176(SP),AX + MULQ 136(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 176(SP),AX + MULQ 144(SP) + MOVQ AX,R8 + MOVQ DX,R9 + MOVQ 176(SP),AX + MULQ 152(SP) + MOVQ AX,R10 + MOVQ DX,R11 + MOVQ 176(SP),AX + MULQ 160(SP) + MOVQ AX,R12 + MOVQ DX,R13 + MOVQ 176(SP),AX + MULQ 168(SP) + MOVQ AX,R14 + MOVQ DX,R15 + MOVQ 184(SP),AX + MULQ 136(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 184(SP),AX + MULQ 144(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 184(SP),AX + MULQ 152(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 184(SP),AX + MULQ 160(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 184(SP),DX + IMUL3Q $19,DX,AX + MULQ 168(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 192(SP),AX + MULQ 136(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 192(SP),AX + MULQ 144(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 192(SP),AX + MULQ 152(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 192(SP),DX + IMUL3Q $19,DX,AX + MULQ 160(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 192(SP),DX + IMUL3Q $19,DX,AX + MULQ 168(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 200(SP),AX + MULQ 136(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 200(SP),AX + MULQ 144(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 56(SP),AX + MULQ 160(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 56(SP),AX + MULQ 168(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 208(SP),AX + MULQ 136(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 64(SP),AX + MULQ 152(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 64(SP),AX + MULQ 160(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 64(SP),AX + MULQ 168(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ ·REDMASK51(SB),DX + SHLQ $13,CX:SI + ANDQ DX,SI + SHLQ $13,R9:R8 + ANDQ DX,R8 + ADDQ CX,R8 + SHLQ $13,R11:R10 + ANDQ DX,R10 + ADDQ R9,R10 + SHLQ $13,R13:R12 + ANDQ DX,R12 + ADDQ R11,R12 + SHLQ $13,R15:R14 + ANDQ DX,R14 + ADDQ R13,R14 + IMUL3Q $19,R15,CX + ADDQ CX,SI + MOVQ SI,CX + SHRQ $51,CX + ADDQ R8,CX + MOVQ CX,R8 + SHRQ $51,CX + ANDQ DX,SI + ADDQ R10,CX + MOVQ CX,R9 + SHRQ $51,CX + ANDQ DX,R8 + ADDQ R12,CX + MOVQ CX,AX + SHRQ $51,CX + ANDQ DX,R9 + ADDQ R14,CX + MOVQ CX,R10 + SHRQ $51,CX + ANDQ DX,AX + IMUL3Q $19,CX,CX + ADDQ CX,SI + ANDQ DX,R10 + MOVQ SI,40(DI) + MOVQ R8,48(DI) + MOVQ R9,56(DI) + MOVQ AX,64(DI) + MOVQ R10,72(DI) + MOVQ 216(SP),AX + MULQ ·_121666_213(SB) + SHRQ $13,AX + MOVQ AX,SI + MOVQ DX,CX + MOVQ 224(SP),AX + MULQ ·_121666_213(SB) + SHRQ $13,AX + ADDQ AX,CX + MOVQ DX,R8 + MOVQ 232(SP),AX + MULQ ·_121666_213(SB) + SHRQ $13,AX + ADDQ AX,R8 + MOVQ DX,R9 + MOVQ 240(SP),AX + MULQ ·_121666_213(SB) + SHRQ $13,AX + ADDQ AX,R9 + MOVQ DX,R10 + MOVQ 248(SP),AX + MULQ ·_121666_213(SB) + SHRQ $13,AX + ADDQ AX,R10 + IMUL3Q $19,DX,DX + ADDQ DX,SI + ADDQ 136(SP),SI + ADDQ 144(SP),CX + ADDQ 152(SP),R8 + ADDQ 160(SP),R9 + ADDQ 168(SP),R10 + MOVQ SI,80(DI) + MOVQ CX,88(DI) + MOVQ R8,96(DI) + MOVQ R9,104(DI) + MOVQ R10,112(DI) + MOVQ 104(DI),SI + IMUL3Q $19,SI,AX + MOVQ AX,56(SP) + MULQ 232(SP) + MOVQ AX,SI + MOVQ DX,CX + MOVQ 112(DI),DX + IMUL3Q $19,DX,AX + MOVQ AX,64(SP) + MULQ 224(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 80(DI),AX + MULQ 216(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 80(DI),AX + MULQ 224(SP) + MOVQ AX,R8 + MOVQ DX,R9 + MOVQ 80(DI),AX + MULQ 232(SP) + MOVQ AX,R10 + MOVQ DX,R11 + MOVQ 80(DI),AX + MULQ 240(SP) + MOVQ AX,R12 + MOVQ DX,R13 + MOVQ 80(DI),AX + MULQ 248(SP) + MOVQ AX,R14 + MOVQ DX,R15 + MOVQ 88(DI),AX + MULQ 216(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 88(DI),AX + MULQ 224(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 88(DI),AX + MULQ 232(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 88(DI),AX + MULQ 240(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 88(DI),DX + IMUL3Q $19,DX,AX + MULQ 248(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 96(DI),AX + MULQ 216(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 96(DI),AX + MULQ 224(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 96(DI),AX + MULQ 232(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 96(DI),DX + IMUL3Q $19,DX,AX + MULQ 240(SP) + ADDQ AX,SI + ADCQ DX,CX + MOVQ 96(DI),DX + IMUL3Q $19,DX,AX + MULQ 248(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 104(DI),AX + MULQ 216(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 104(DI),AX + MULQ 224(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 56(SP),AX + MULQ 240(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 56(SP),AX + MULQ 248(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 112(DI),AX + MULQ 216(SP) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 64(SP),AX + MULQ 232(SP) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 64(SP),AX + MULQ 240(SP) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 64(SP),AX + MULQ 248(SP) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ ·REDMASK51(SB),DX + SHLQ $13,CX:SI + ANDQ DX,SI + SHLQ $13,R9:R8 + ANDQ DX,R8 + ADDQ CX,R8 + SHLQ $13,R11:R10 + ANDQ DX,R10 + ADDQ R9,R10 + SHLQ $13,R13:R12 + ANDQ DX,R12 + ADDQ R11,R12 + SHLQ $13,R15:R14 + ANDQ DX,R14 + ADDQ R13,R14 + IMUL3Q $19,R15,CX + ADDQ CX,SI + MOVQ SI,CX + SHRQ $51,CX + ADDQ R8,CX + MOVQ CX,R8 + SHRQ $51,CX + ANDQ DX,SI + ADDQ R10,CX + MOVQ CX,R9 + SHRQ $51,CX + ANDQ DX,R8 + ADDQ R12,CX + MOVQ CX,AX + SHRQ $51,CX + ANDQ DX,R9 + ADDQ R14,CX + MOVQ CX,R10 + SHRQ $51,CX + ANDQ DX,AX + IMUL3Q $19,CX,CX + ADDQ CX,SI + ANDQ DX,R10 + MOVQ SI,80(DI) + MOVQ R8,88(DI) + MOVQ R9,96(DI) + MOVQ AX,104(DI) + MOVQ R10,112(DI) + MOVQ 0(SP),R11 + MOVQ 8(SP),R12 + MOVQ 16(SP),R13 + MOVQ 24(SP),R14 + MOVQ 32(SP),R15 + MOVQ 40(SP),BX + MOVQ 48(SP),BP + MOVQ R11,SP + MOVQ DI,AX + MOVQ SI,DX + RET diff --git a/vendor/github.com/keybase/go-crypto/curve25519/mont25519_amd64.go b/vendor/github.com/keybase/go-crypto/curve25519/mont25519_amd64.go new file mode 100644 index 00000000..5822bd53 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/curve25519/mont25519_amd64.go @@ -0,0 +1,240 @@ +// Copyright 2012 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// +build amd64,!gccgo,!appengine + +package curve25519 + +// These functions are implemented in the .s files. The names of the functions +// in the rest of the file are also taken from the SUPERCOP sources to help +// people following along. + +//go:noescape + +func cswap(inout *[5]uint64, v uint64) + +//go:noescape + +func ladderstep(inout *[5][5]uint64) + +//go:noescape + +func freeze(inout *[5]uint64) + +//go:noescape + +func mul(dest, a, b *[5]uint64) + +//go:noescape + +func square(out, in *[5]uint64) + +// mladder uses a Montgomery ladder to calculate (xr/zr) *= s. +func mladder(xr, zr *[5]uint64, s *[32]byte) { + var work [5][5]uint64 + + work[0] = *xr + setint(&work[1], 1) + setint(&work[2], 0) + work[3] = *xr + setint(&work[4], 1) + + j := uint(6) + var prevbit byte + + for i := 31; i >= 0; i-- { + for j < 8 { + bit := ((*s)[i] >> j) & 1 + swap := bit ^ prevbit + prevbit = bit + cswap(&work[1], uint64(swap)) + ladderstep(&work) + j-- + } + j = 7 + } + + *xr = work[1] + *zr = work[2] +} + +func scalarMult(out, in, base *[32]byte) { + var e [32]byte + copy(e[:], (*in)[:]) + e[0] &= 248 + e[31] &= 127 + e[31] |= 64 + + var t, z [5]uint64 + unpack(&t, base) + mladder(&t, &z, &e) + invert(&z, &z) + mul(&t, &t, &z) + pack(out, &t) +} + +func setint(r *[5]uint64, v uint64) { + r[0] = v + r[1] = 0 + r[2] = 0 + r[3] = 0 + r[4] = 0 +} + +// unpack sets r = x where r consists of 5, 51-bit limbs in little-endian +// order. +func unpack(r *[5]uint64, x *[32]byte) { + r[0] = uint64(x[0]) | + uint64(x[1])<<8 | + uint64(x[2])<<16 | + uint64(x[3])<<24 | + uint64(x[4])<<32 | + uint64(x[5])<<40 | + uint64(x[6]&7)<<48 + + r[1] = uint64(x[6])>>3 | + uint64(x[7])<<5 | + uint64(x[8])<<13 | + uint64(x[9])<<21 | + uint64(x[10])<<29 | + uint64(x[11])<<37 | + uint64(x[12]&63)<<45 + + r[2] = uint64(x[12])>>6 | + uint64(x[13])<<2 | + uint64(x[14])<<10 | + uint64(x[15])<<18 | + uint64(x[16])<<26 | + uint64(x[17])<<34 | + uint64(x[18])<<42 | + uint64(x[19]&1)<<50 + + r[3] = uint64(x[19])>>1 | + uint64(x[20])<<7 | + uint64(x[21])<<15 | + uint64(x[22])<<23 | + uint64(x[23])<<31 | + uint64(x[24])<<39 | + uint64(x[25]&15)<<47 + + r[4] = uint64(x[25])>>4 | + uint64(x[26])<<4 | + uint64(x[27])<<12 | + uint64(x[28])<<20 | + uint64(x[29])<<28 | + uint64(x[30])<<36 | + uint64(x[31]&127)<<44 +} + +// pack sets out = x where out is the usual, little-endian form of the 5, +// 51-bit limbs in x. +func pack(out *[32]byte, x *[5]uint64) { + t := *x + freeze(&t) + + out[0] = byte(t[0]) + out[1] = byte(t[0] >> 8) + out[2] = byte(t[0] >> 16) + out[3] = byte(t[0] >> 24) + out[4] = byte(t[0] >> 32) + out[5] = byte(t[0] >> 40) + out[6] = byte(t[0] >> 48) + + out[6] ^= byte(t[1]<<3) & 0xf8 + out[7] = byte(t[1] >> 5) + out[8] = byte(t[1] >> 13) + out[9] = byte(t[1] >> 21) + out[10] = byte(t[1] >> 29) + out[11] = byte(t[1] >> 37) + out[12] = byte(t[1] >> 45) + + out[12] ^= byte(t[2]<<6) & 0xc0 + out[13] = byte(t[2] >> 2) + out[14] = byte(t[2] >> 10) + out[15] = byte(t[2] >> 18) + out[16] = byte(t[2] >> 26) + out[17] = byte(t[2] >> 34) + out[18] = byte(t[2] >> 42) + out[19] = byte(t[2] >> 50) + + out[19] ^= byte(t[3]<<1) & 0xfe + out[20] = byte(t[3] >> 7) + out[21] = byte(t[3] >> 15) + out[22] = byte(t[3] >> 23) + out[23] = byte(t[3] >> 31) + out[24] = byte(t[3] >> 39) + out[25] = byte(t[3] >> 47) + + out[25] ^= byte(t[4]<<4) & 0xf0 + out[26] = byte(t[4] >> 4) + out[27] = byte(t[4] >> 12) + out[28] = byte(t[4] >> 20) + out[29] = byte(t[4] >> 28) + out[30] = byte(t[4] >> 36) + out[31] = byte(t[4] >> 44) +} + +// invert calculates r = x^-1 mod p using Fermat's little theorem. +func invert(r *[5]uint64, x *[5]uint64) { + var z2, z9, z11, z2_5_0, z2_10_0, z2_20_0, z2_50_0, z2_100_0, t [5]uint64 + + square(&z2, x) /* 2 */ + square(&t, &z2) /* 4 */ + square(&t, &t) /* 8 */ + mul(&z9, &t, x) /* 9 */ + mul(&z11, &z9, &z2) /* 11 */ + square(&t, &z11) /* 22 */ + mul(&z2_5_0, &t, &z9) /* 2^5 - 2^0 = 31 */ + + square(&t, &z2_5_0) /* 2^6 - 2^1 */ + for i := 1; i < 5; i++ { /* 2^20 - 2^10 */ + square(&t, &t) + } + mul(&z2_10_0, &t, &z2_5_0) /* 2^10 - 2^0 */ + + square(&t, &z2_10_0) /* 2^11 - 2^1 */ + for i := 1; i < 10; i++ { /* 2^20 - 2^10 */ + square(&t, &t) + } + mul(&z2_20_0, &t, &z2_10_0) /* 2^20 - 2^0 */ + + square(&t, &z2_20_0) /* 2^21 - 2^1 */ + for i := 1; i < 20; i++ { /* 2^40 - 2^20 */ + square(&t, &t) + } + mul(&t, &t, &z2_20_0) /* 2^40 - 2^0 */ + + square(&t, &t) /* 2^41 - 2^1 */ + for i := 1; i < 10; i++ { /* 2^50 - 2^10 */ + square(&t, &t) + } + mul(&z2_50_0, &t, &z2_10_0) /* 2^50 - 2^0 */ + + square(&t, &z2_50_0) /* 2^51 - 2^1 */ + for i := 1; i < 50; i++ { /* 2^100 - 2^50 */ + square(&t, &t) + } + mul(&z2_100_0, &t, &z2_50_0) /* 2^100 - 2^0 */ + + square(&t, &z2_100_0) /* 2^101 - 2^1 */ + for i := 1; i < 100; i++ { /* 2^200 - 2^100 */ + square(&t, &t) + } + mul(&t, &t, &z2_100_0) /* 2^200 - 2^0 */ + + square(&t, &t) /* 2^201 - 2^1 */ + for i := 1; i < 50; i++ { /* 2^250 - 2^50 */ + square(&t, &t) + } + mul(&t, &t, &z2_50_0) /* 2^250 - 2^0 */ + + square(&t, &t) /* 2^251 - 2^1 */ + square(&t, &t) /* 2^252 - 2^2 */ + square(&t, &t) /* 2^253 - 2^3 */ + + square(&t, &t) /* 2^254 - 2^4 */ + + square(&t, &t) /* 2^255 - 2^5 */ + mul(r, &t, &z11) /* 2^255 - 21 */ +} diff --git a/vendor/github.com/keybase/go-crypto/curve25519/mul_amd64.s b/vendor/github.com/keybase/go-crypto/curve25519/mul_amd64.s new file mode 100644 index 00000000..e48d183e --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/curve25519/mul_amd64.s @@ -0,0 +1,191 @@ +// Copyright 2012 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// This code was translated into a form compatible with 6a from the public +// domain sources in SUPERCOP: http://bench.cr.yp.to/supercop.html + +// +build amd64,!gccgo,!appengine + +// func mul(dest, a, b *[5]uint64) +TEXT ·mul(SB),0,$128-24 + MOVQ dest+0(FP), DI + MOVQ a+8(FP), SI + MOVQ b+16(FP), DX + + MOVQ SP,R11 + MOVQ $31,CX + NOTQ CX + ANDQ CX,SP + ADDQ $32,SP + + MOVQ R11,0(SP) + MOVQ R12,8(SP) + MOVQ R13,16(SP) + MOVQ R14,24(SP) + MOVQ R15,32(SP) + MOVQ BX,40(SP) + MOVQ BP,48(SP) + MOVQ DI,56(SP) + MOVQ DX,CX + MOVQ 24(SI),DX + IMUL3Q $19,DX,AX + MOVQ AX,64(SP) + MULQ 16(CX) + MOVQ AX,R8 + MOVQ DX,R9 + MOVQ 32(SI),DX + IMUL3Q $19,DX,AX + MOVQ AX,72(SP) + MULQ 8(CX) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 0(SI),AX + MULQ 0(CX) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 0(SI),AX + MULQ 8(CX) + MOVQ AX,R10 + MOVQ DX,R11 + MOVQ 0(SI),AX + MULQ 16(CX) + MOVQ AX,R12 + MOVQ DX,R13 + MOVQ 0(SI),AX + MULQ 24(CX) + MOVQ AX,R14 + MOVQ DX,R15 + MOVQ 0(SI),AX + MULQ 32(CX) + MOVQ AX,BX + MOVQ DX,BP + MOVQ 8(SI),AX + MULQ 0(CX) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 8(SI),AX + MULQ 8(CX) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 8(SI),AX + MULQ 16(CX) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 8(SI),AX + MULQ 24(CX) + ADDQ AX,BX + ADCQ DX,BP + MOVQ 8(SI),DX + IMUL3Q $19,DX,AX + MULQ 32(CX) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 16(SI),AX + MULQ 0(CX) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 16(SI),AX + MULQ 8(CX) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 16(SI),AX + MULQ 16(CX) + ADDQ AX,BX + ADCQ DX,BP + MOVQ 16(SI),DX + IMUL3Q $19,DX,AX + MULQ 24(CX) + ADDQ AX,R8 + ADCQ DX,R9 + MOVQ 16(SI),DX + IMUL3Q $19,DX,AX + MULQ 32(CX) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 24(SI),AX + MULQ 0(CX) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ 24(SI),AX + MULQ 8(CX) + ADDQ AX,BX + ADCQ DX,BP + MOVQ 64(SP),AX + MULQ 24(CX) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 64(SP),AX + MULQ 32(CX) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 32(SI),AX + MULQ 0(CX) + ADDQ AX,BX + ADCQ DX,BP + MOVQ 72(SP),AX + MULQ 16(CX) + ADDQ AX,R10 + ADCQ DX,R11 + MOVQ 72(SP),AX + MULQ 24(CX) + ADDQ AX,R12 + ADCQ DX,R13 + MOVQ 72(SP),AX + MULQ 32(CX) + ADDQ AX,R14 + ADCQ DX,R15 + MOVQ ·REDMASK51(SB),SI + SHLQ $13,R9:R8 + ANDQ SI,R8 + SHLQ $13,R11:R10 + ANDQ SI,R10 + ADDQ R9,R10 + SHLQ $13,R13:R12 + ANDQ SI,R12 + ADDQ R11,R12 + SHLQ $13,R15:R14 + ANDQ SI,R14 + ADDQ R13,R14 + SHLQ $13,BP:BX + ANDQ SI,BX + ADDQ R15,BX + IMUL3Q $19,BP,DX + ADDQ DX,R8 + MOVQ R8,DX + SHRQ $51,DX + ADDQ R10,DX + MOVQ DX,CX + SHRQ $51,DX + ANDQ SI,R8 + ADDQ R12,DX + MOVQ DX,R9 + SHRQ $51,DX + ANDQ SI,CX + ADDQ R14,DX + MOVQ DX,AX + SHRQ $51,DX + ANDQ SI,R9 + ADDQ BX,DX + MOVQ DX,R10 + SHRQ $51,DX + ANDQ SI,AX + IMUL3Q $19,DX,DX + ADDQ DX,R8 + ANDQ SI,R10 + MOVQ R8,0(DI) + MOVQ CX,8(DI) + MOVQ R9,16(DI) + MOVQ AX,24(DI) + MOVQ R10,32(DI) + MOVQ 0(SP),R11 + MOVQ 8(SP),R12 + MOVQ 16(SP),R13 + MOVQ 24(SP),R14 + MOVQ 32(SP),R15 + MOVQ 40(SP),BX + MOVQ 48(SP),BP + MOVQ R11,SP + MOVQ DI,AX + MOVQ SI,DX + RET diff --git a/vendor/github.com/keybase/go-crypto/curve25519/square_amd64.s b/vendor/github.com/keybase/go-crypto/curve25519/square_amd64.s new file mode 100644 index 00000000..78d1a50d --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/curve25519/square_amd64.s @@ -0,0 +1,153 @@ +// Copyright 2012 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// This code was translated into a form compatible with 6a from the public +// domain sources in SUPERCOP: http://bench.cr.yp.to/supercop.html + +// +build amd64,!gccgo,!appengine + +// func square(out, in *[5]uint64) +TEXT ·square(SB),7,$96-16 + MOVQ out+0(FP), DI + MOVQ in+8(FP), SI + + MOVQ SP,R11 + MOVQ $31,CX + NOTQ CX + ANDQ CX,SP + ADDQ $32, SP + + MOVQ R11,0(SP) + MOVQ R12,8(SP) + MOVQ R13,16(SP) + MOVQ R14,24(SP) + MOVQ R15,32(SP) + MOVQ BX,40(SP) + MOVQ BP,48(SP) + MOVQ 0(SI),AX + MULQ 0(SI) + MOVQ AX,CX + MOVQ DX,R8 + MOVQ 0(SI),AX + SHLQ $1,AX + MULQ 8(SI) + MOVQ AX,R9 + MOVQ DX,R10 + MOVQ 0(SI),AX + SHLQ $1,AX + MULQ 16(SI) + MOVQ AX,R11 + MOVQ DX,R12 + MOVQ 0(SI),AX + SHLQ $1,AX + MULQ 24(SI) + MOVQ AX,R13 + MOVQ DX,R14 + MOVQ 0(SI),AX + SHLQ $1,AX + MULQ 32(SI) + MOVQ AX,R15 + MOVQ DX,BX + MOVQ 8(SI),AX + MULQ 8(SI) + ADDQ AX,R11 + ADCQ DX,R12 + MOVQ 8(SI),AX + SHLQ $1,AX + MULQ 16(SI) + ADDQ AX,R13 + ADCQ DX,R14 + MOVQ 8(SI),AX + SHLQ $1,AX + MULQ 24(SI) + ADDQ AX,R15 + ADCQ DX,BX + MOVQ 8(SI),DX + IMUL3Q $38,DX,AX + MULQ 32(SI) + ADDQ AX,CX + ADCQ DX,R8 + MOVQ 16(SI),AX + MULQ 16(SI) + ADDQ AX,R15 + ADCQ DX,BX + MOVQ 16(SI),DX + IMUL3Q $38,DX,AX + MULQ 24(SI) + ADDQ AX,CX + ADCQ DX,R8 + MOVQ 16(SI),DX + IMUL3Q $38,DX,AX + MULQ 32(SI) + ADDQ AX,R9 + ADCQ DX,R10 + MOVQ 24(SI),DX + IMUL3Q $19,DX,AX + MULQ 24(SI) + ADDQ AX,R9 + ADCQ DX,R10 + MOVQ 24(SI),DX + IMUL3Q $38,DX,AX + MULQ 32(SI) + ADDQ AX,R11 + ADCQ DX,R12 + MOVQ 32(SI),DX + IMUL3Q $19,DX,AX + MULQ 32(SI) + ADDQ AX,R13 + ADCQ DX,R14 + MOVQ ·REDMASK51(SB),SI + SHLQ $13,R8:CX + ANDQ SI,CX + SHLQ $13,R10:R9 + ANDQ SI,R9 + ADDQ R8,R9 + SHLQ $13,R12:R11 + ANDQ SI,R11 + ADDQ R10,R11 + SHLQ $13,R14:R13 + ANDQ SI,R13 + ADDQ R12,R13 + SHLQ $13,BX:R15 + ANDQ SI,R15 + ADDQ R14,R15 + IMUL3Q $19,BX,DX + ADDQ DX,CX + MOVQ CX,DX + SHRQ $51,DX + ADDQ R9,DX + ANDQ SI,CX + MOVQ DX,R8 + SHRQ $51,DX + ADDQ R11,DX + ANDQ SI,R8 + MOVQ DX,R9 + SHRQ $51,DX + ADDQ R13,DX + ANDQ SI,R9 + MOVQ DX,AX + SHRQ $51,DX + ADDQ R15,DX + ANDQ SI,AX + MOVQ DX,R10 + SHRQ $51,DX + IMUL3Q $19,DX,DX + ADDQ DX,CX + ANDQ SI,R10 + MOVQ CX,0(DI) + MOVQ R8,8(DI) + MOVQ R9,16(DI) + MOVQ AX,24(DI) + MOVQ R10,32(DI) + MOVQ 0(SP),R11 + MOVQ 8(SP),R12 + MOVQ 16(SP),R13 + MOVQ 24(SP),R14 + MOVQ 32(SP),R15 + MOVQ 40(SP),BX + MOVQ 48(SP),BP + MOVQ R11,SP + MOVQ DI,AX + MOVQ SI,DX + RET diff --git a/vendor/github.com/keybase/go-crypto/ed25519/ed25519.go b/vendor/github.com/keybase/go-crypto/ed25519/ed25519.go new file mode 100644 index 00000000..9c7a8880 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/ed25519/ed25519.go @@ -0,0 +1,181 @@ +// Copyright 2016 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package ed25519 implements the Ed25519 signature algorithm. See +// http://ed25519.cr.yp.to/. +// +// These functions are also compatible with the “Ed25519” function defined in +// https://tools.ietf.org/html/draft-irtf-cfrg-eddsa-05. +package ed25519 + +// This code is a port of the public domain, “ref10” implementation of ed25519 +// from SUPERCOP. + +import ( + "crypto" + cryptorand "crypto/rand" + "crypto/sha512" + "crypto/subtle" + "errors" + "io" + "strconv" + + "github.com/keybase/go-crypto/ed25519/internal/edwards25519" +) + +const ( + // PublicKeySize is the size, in bytes, of public keys as used in this package. + PublicKeySize = 32 + // PrivateKeySize is the size, in bytes, of private keys as used in this package. + PrivateKeySize = 64 + // SignatureSize is the size, in bytes, of signatures generated and verified by this package. + SignatureSize = 64 +) + +// PublicKey is the type of Ed25519 public keys. +type PublicKey []byte + +// PrivateKey is the type of Ed25519 private keys. It implements crypto.Signer. +type PrivateKey []byte + +// Public returns the PublicKey corresponding to priv. +func (priv PrivateKey) Public() crypto.PublicKey { + publicKey := make([]byte, PublicKeySize) + copy(publicKey, priv[32:]) + return PublicKey(publicKey) +} + +// Sign signs the given message with priv. +// Ed25519 performs two passes over messages to be signed and therefore cannot +// handle pre-hashed messages. Thus opts.HashFunc() must return zero to +// indicate the message hasn't been hashed. This can be achieved by passing +// crypto.Hash(0) as the value for opts. +func (priv PrivateKey) Sign(rand io.Reader, message []byte, opts crypto.SignerOpts) (signature []byte, err error) { + if opts.HashFunc() != crypto.Hash(0) { + return nil, errors.New("ed25519: cannot sign hashed message") + } + + return Sign(priv, message), nil +} + +// GenerateKey generates a public/private key pair using entropy from rand. +// If rand is nil, crypto/rand.Reader will be used. +func GenerateKey(rand io.Reader) (publicKey PublicKey, privateKey PrivateKey, err error) { + if rand == nil { + rand = cryptorand.Reader + } + + privateKey = make([]byte, PrivateKeySize) + publicKey = make([]byte, PublicKeySize) + _, err = io.ReadFull(rand, privateKey[:32]) + if err != nil { + return nil, nil, err + } + + digest := sha512.Sum512(privateKey[:32]) + digest[0] &= 248 + digest[31] &= 127 + digest[31] |= 64 + + var A edwards25519.ExtendedGroupElement + var hBytes [32]byte + copy(hBytes[:], digest[:]) + edwards25519.GeScalarMultBase(&A, &hBytes) + var publicKeyBytes [32]byte + A.ToBytes(&publicKeyBytes) + + copy(privateKey[32:], publicKeyBytes[:]) + copy(publicKey, publicKeyBytes[:]) + + return publicKey, privateKey, nil +} + +// Sign signs the message with privateKey and returns a signature. It will +// panic if len(privateKey) is not PrivateKeySize. +func Sign(privateKey PrivateKey, message []byte) []byte { + if l := len(privateKey); l != PrivateKeySize { + panic("ed25519: bad private key length: " + strconv.Itoa(l)) + } + + h := sha512.New() + h.Write(privateKey[:32]) + + var digest1, messageDigest, hramDigest [64]byte + var expandedSecretKey [32]byte + h.Sum(digest1[:0]) + copy(expandedSecretKey[:], digest1[:]) + expandedSecretKey[0] &= 248 + expandedSecretKey[31] &= 63 + expandedSecretKey[31] |= 64 + + h.Reset() + h.Write(digest1[32:]) + h.Write(message) + h.Sum(messageDigest[:0]) + + var messageDigestReduced [32]byte + edwards25519.ScReduce(&messageDigestReduced, &messageDigest) + var R edwards25519.ExtendedGroupElement + edwards25519.GeScalarMultBase(&R, &messageDigestReduced) + + var encodedR [32]byte + R.ToBytes(&encodedR) + + h.Reset() + h.Write(encodedR[:]) + h.Write(privateKey[32:]) + h.Write(message) + h.Sum(hramDigest[:0]) + var hramDigestReduced [32]byte + edwards25519.ScReduce(&hramDigestReduced, &hramDigest) + + var s [32]byte + edwards25519.ScMulAdd(&s, &hramDigestReduced, &expandedSecretKey, &messageDigestReduced) + + signature := make([]byte, SignatureSize) + copy(signature[:], encodedR[:]) + copy(signature[32:], s[:]) + + return signature +} + +// Verify reports whether sig is a valid signature of message by publicKey. It +// will panic if len(publicKey) is not PublicKeySize. +func Verify(publicKey PublicKey, message, sig []byte) bool { + if l := len(publicKey); l != PublicKeySize { + panic("ed25519: bad public key length: " + strconv.Itoa(l)) + } + + if len(sig) != SignatureSize || sig[63]&224 != 0 { + return false + } + + var A edwards25519.ExtendedGroupElement + var publicKeyBytes [32]byte + copy(publicKeyBytes[:], publicKey) + if !A.FromBytes(&publicKeyBytes) { + return false + } + edwards25519.FeNeg(&A.X, &A.X) + edwards25519.FeNeg(&A.T, &A.T) + + h := sha512.New() + h.Write(sig[:32]) + h.Write(publicKey[:]) + h.Write(message) + var digest [64]byte + h.Sum(digest[:0]) + + var hReduced [32]byte + edwards25519.ScReduce(&hReduced, &digest) + + var R edwards25519.ProjectiveGroupElement + var b [32]byte + copy(b[:], sig[32:]) + edwards25519.GeDoubleScalarMultVartime(&R, &hReduced, &A, &b) + + var checkR [32]byte + R.ToBytes(&checkR) + return subtle.ConstantTimeCompare(sig[:32], checkR[:]) == 1 +} diff --git a/vendor/github.com/keybase/go-crypto/ed25519/internal/edwards25519/const.go b/vendor/github.com/keybase/go-crypto/ed25519/internal/edwards25519/const.go new file mode 100644 index 00000000..e39f086c --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/ed25519/internal/edwards25519/const.go @@ -0,0 +1,1422 @@ +// Copyright 2016 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package edwards25519 + +// These values are from the public domain, “ref10” implementation of ed25519 +// from SUPERCOP. + +// d is a constant in the Edwards curve equation. +var d = FieldElement{ + -10913610, 13857413, -15372611, 6949391, 114729, -8787816, -6275908, -3247719, -18696448, -12055116, +} + +// d2 is 2*d. +var d2 = FieldElement{ + -21827239, -5839606, -30745221, 13898782, 229458, 15978800, -12551817, -6495438, 29715968, 9444199, +} + +// SqrtM1 is the square-root of -1 in the field. +var SqrtM1 = FieldElement{ + -32595792, -7943725, 9377950, 3500415, 12389472, -272473, -25146209, -2005654, 326686, 11406482, +} + +// A is a constant in the Montgomery-form of curve25519. +var A = FieldElement{ + 486662, 0, 0, 0, 0, 0, 0, 0, 0, 0, +} + +// bi contains precomputed multiples of the base-point. See the Ed25519 paper +// for a discussion about how these values are used. +var bi = [8]PreComputedGroupElement{ + { + FieldElement{25967493, -14356035, 29566456, 3660896, -12694345, 4014787, 27544626, -11754271, -6079156, 2047605}, + FieldElement{-12545711, 934262, -2722910, 3049990, -727428, 9406986, 12720692, 5043384, 19500929, -15469378}, + FieldElement{-8738181, 4489570, 9688441, -14785194, 10184609, -12363380, 29287919, 11864899, -24514362, -4438546}, + }, + { + FieldElement{15636291, -9688557, 24204773, -7912398, 616977, -16685262, 27787600, -14772189, 28944400, -1550024}, + FieldElement{16568933, 4717097, -11556148, -1102322, 15682896, -11807043, 16354577, -11775962, 7689662, 11199574}, + FieldElement{30464156, -5976125, -11779434, -15670865, 23220365, 15915852, 7512774, 10017326, -17749093, -9920357}, + }, + { + FieldElement{10861363, 11473154, 27284546, 1981175, -30064349, 12577861, 32867885, 14515107, -15438304, 10819380}, + FieldElement{4708026, 6336745, 20377586, 9066809, -11272109, 6594696, -25653668, 12483688, -12668491, 5581306}, + FieldElement{19563160, 16186464, -29386857, 4097519, 10237984, -4348115, 28542350, 13850243, -23678021, -15815942}, + }, + { + FieldElement{5153746, 9909285, 1723747, -2777874, 30523605, 5516873, 19480852, 5230134, -23952439, -15175766}, + FieldElement{-30269007, -3463509, 7665486, 10083793, 28475525, 1649722, 20654025, 16520125, 30598449, 7715701}, + FieldElement{28881845, 14381568, 9657904, 3680757, -20181635, 7843316, -31400660, 1370708, 29794553, -1409300}, + }, + { + FieldElement{-22518993, -6692182, 14201702, -8745502, -23510406, 8844726, 18474211, -1361450, -13062696, 13821877}, + FieldElement{-6455177, -7839871, 3374702, -4740862, -27098617, -10571707, 31655028, -7212327, 18853322, -14220951}, + FieldElement{4566830, -12963868, -28974889, -12240689, -7602672, -2830569, -8514358, -10431137, 2207753, -3209784}, + }, + { + FieldElement{-25154831, -4185821, 29681144, 7868801, -6854661, -9423865, -12437364, -663000, -31111463, -16132436}, + FieldElement{25576264, -2703214, 7349804, -11814844, 16472782, 9300885, 3844789, 15725684, 171356, 6466918}, + FieldElement{23103977, 13316479, 9739013, -16149481, 817875, -15038942, 8965339, -14088058, -30714912, 16193877}, + }, + { + FieldElement{-33521811, 3180713, -2394130, 14003687, -16903474, -16270840, 17238398, 4729455, -18074513, 9256800}, + FieldElement{-25182317, -4174131, 32336398, 5036987, -21236817, 11360617, 22616405, 9761698, -19827198, 630305}, + FieldElement{-13720693, 2639453, -24237460, -7406481, 9494427, -5774029, -6554551, -15960994, -2449256, -14291300}, + }, + { + FieldElement{-3151181, -5046075, 9282714, 6866145, -31907062, -863023, -18940575, 15033784, 25105118, -7894876}, + FieldElement{-24326370, 15950226, -31801215, -14592823, -11662737, -5090925, 1573892, -2625887, 2198790, -15804619}, + FieldElement{-3099351, 10324967, -2241613, 7453183, -5446979, -2735503, -13812022, -16236442, -32461234, -12290683}, + }, +} + +// base contains precomputed multiples of the base-point. See the Ed25519 paper +// for a discussion about how these values are used. +var base = [32][8]PreComputedGroupElement{ + { + { + FieldElement{25967493, -14356035, 29566456, 3660896, -12694345, 4014787, 27544626, -11754271, -6079156, 2047605}, + FieldElement{-12545711, 934262, -2722910, 3049990, -727428, 9406986, 12720692, 5043384, 19500929, -15469378}, + FieldElement{-8738181, 4489570, 9688441, -14785194, 10184609, -12363380, 29287919, 11864899, -24514362, -4438546}, + }, + { + FieldElement{-12815894, -12976347, -21581243, 11784320, -25355658, -2750717, -11717903, -3814571, -358445, -10211303}, + FieldElement{-21703237, 6903825, 27185491, 6451973, -29577724, -9554005, -15616551, 11189268, -26829678, -5319081}, + FieldElement{26966642, 11152617, 32442495, 15396054, 14353839, -12752335, -3128826, -9541118, -15472047, -4166697}, + }, + { + FieldElement{15636291, -9688557, 24204773, -7912398, 616977, -16685262, 27787600, -14772189, 28944400, -1550024}, + FieldElement{16568933, 4717097, -11556148, -1102322, 15682896, -11807043, 16354577, -11775962, 7689662, 11199574}, + FieldElement{30464156, -5976125, -11779434, -15670865, 23220365, 15915852, 7512774, 10017326, -17749093, -9920357}, + }, + { + FieldElement{-17036878, 13921892, 10945806, -6033431, 27105052, -16084379, -28926210, 15006023, 3284568, -6276540}, + FieldElement{23599295, -8306047, -11193664, -7687416, 13236774, 10506355, 7464579, 9656445, 13059162, 10374397}, + FieldElement{7798556, 16710257, 3033922, 2874086, 28997861, 2835604, 32406664, -3839045, -641708, -101325}, + }, + { + FieldElement{10861363, 11473154, 27284546, 1981175, -30064349, 12577861, 32867885, 14515107, -15438304, 10819380}, + FieldElement{4708026, 6336745, 20377586, 9066809, -11272109, 6594696, -25653668, 12483688, -12668491, 5581306}, + FieldElement{19563160, 16186464, -29386857, 4097519, 10237984, -4348115, 28542350, 13850243, -23678021, -15815942}, + }, + { + FieldElement{-15371964, -12862754, 32573250, 4720197, -26436522, 5875511, -19188627, -15224819, -9818940, -12085777}, + FieldElement{-8549212, 109983, 15149363, 2178705, 22900618, 4543417, 3044240, -15689887, 1762328, 14866737}, + FieldElement{-18199695, -15951423, -10473290, 1707278, -17185920, 3916101, -28236412, 3959421, 27914454, 4383652}, + }, + { + FieldElement{5153746, 9909285, 1723747, -2777874, 30523605, 5516873, 19480852, 5230134, -23952439, -15175766}, + FieldElement{-30269007, -3463509, 7665486, 10083793, 28475525, 1649722, 20654025, 16520125, 30598449, 7715701}, + FieldElement{28881845, 14381568, 9657904, 3680757, -20181635, 7843316, -31400660, 1370708, 29794553, -1409300}, + }, + { + FieldElement{14499471, -2729599, -33191113, -4254652, 28494862, 14271267, 30290735, 10876454, -33154098, 2381726}, + FieldElement{-7195431, -2655363, -14730155, 462251, -27724326, 3941372, -6236617, 3696005, -32300832, 15351955}, + FieldElement{27431194, 8222322, 16448760, -3907995, -18707002, 11938355, -32961401, -2970515, 29551813, 10109425}, + }, + }, + { + { + FieldElement{-13657040, -13155431, -31283750, 11777098, 21447386, 6519384, -2378284, -1627556, 10092783, -4764171}, + FieldElement{27939166, 14210322, 4677035, 16277044, -22964462, -12398139, -32508754, 12005538, -17810127, 12803510}, + FieldElement{17228999, -15661624, -1233527, 300140, -1224870, -11714777, 30364213, -9038194, 18016357, 4397660}, + }, + { + FieldElement{-10958843, -7690207, 4776341, -14954238, 27850028, -15602212, -26619106, 14544525, -17477504, 982639}, + FieldElement{29253598, 15796703, -2863982, -9908884, 10057023, 3163536, 7332899, -4120128, -21047696, 9934963}, + FieldElement{5793303, 16271923, -24131614, -10116404, 29188560, 1206517, -14747930, 4559895, -30123922, -10897950}, + }, + { + FieldElement{-27643952, -11493006, 16282657, -11036493, 28414021, -15012264, 24191034, 4541697, -13338309, 5500568}, + FieldElement{12650548, -1497113, 9052871, 11355358, -17680037, -8400164, -17430592, 12264343, 10874051, 13524335}, + FieldElement{25556948, -3045990, 714651, 2510400, 23394682, -10415330, 33119038, 5080568, -22528059, 5376628}, + }, + { + FieldElement{-26088264, -4011052, -17013699, -3537628, -6726793, 1920897, -22321305, -9447443, 4535768, 1569007}, + FieldElement{-2255422, 14606630, -21692440, -8039818, 28430649, 8775819, -30494562, 3044290, 31848280, 12543772}, + FieldElement{-22028579, 2943893, -31857513, 6777306, 13784462, -4292203, -27377195, -2062731, 7718482, 14474653}, + }, + { + FieldElement{2385315, 2454213, -22631320, 46603, -4437935, -15680415, 656965, -7236665, 24316168, -5253567}, + FieldElement{13741529, 10911568, -33233417, -8603737, -20177830, -1033297, 33040651, -13424532, -20729456, 8321686}, + FieldElement{21060490, -2212744, 15712757, -4336099, 1639040, 10656336, 23845965, -11874838, -9984458, 608372}, + }, + { + FieldElement{-13672732, -15087586, -10889693, -7557059, -6036909, 11305547, 1123968, -6780577, 27229399, 23887}, + FieldElement{-23244140, -294205, -11744728, 14712571, -29465699, -2029617, 12797024, -6440308, -1633405, 16678954}, + FieldElement{-29500620, 4770662, -16054387, 14001338, 7830047, 9564805, -1508144, -4795045, -17169265, 4904953}, + }, + { + FieldElement{24059557, 14617003, 19037157, -15039908, 19766093, -14906429, 5169211, 16191880, 2128236, -4326833}, + FieldElement{-16981152, 4124966, -8540610, -10653797, 30336522, -14105247, -29806336, 916033, -6882542, -2986532}, + FieldElement{-22630907, 12419372, -7134229, -7473371, -16478904, 16739175, 285431, 2763829, 15736322, 4143876}, + }, + { + FieldElement{2379352, 11839345, -4110402, -5988665, 11274298, 794957, 212801, -14594663, 23527084, -16458268}, + FieldElement{33431127, -11130478, -17838966, -15626900, 8909499, 8376530, -32625340, 4087881, -15188911, -14416214}, + FieldElement{1767683, 7197987, -13205226, -2022635, -13091350, 448826, 5799055, 4357868, -4774191, -16323038}, + }, + }, + { + { + FieldElement{6721966, 13833823, -23523388, -1551314, 26354293, -11863321, 23365147, -3949732, 7390890, 2759800}, + FieldElement{4409041, 2052381, 23373853, 10530217, 7676779, -12885954, 21302353, -4264057, 1244380, -12919645}, + FieldElement{-4421239, 7169619, 4982368, -2957590, 30256825, -2777540, 14086413, 9208236, 15886429, 16489664}, + }, + { + FieldElement{1996075, 10375649, 14346367, 13311202, -6874135, -16438411, -13693198, 398369, -30606455, -712933}, + FieldElement{-25307465, 9795880, -2777414, 14878809, -33531835, 14780363, 13348553, 12076947, -30836462, 5113182}, + FieldElement{-17770784, 11797796, 31950843, 13929123, -25888302, 12288344, -30341101, -7336386, 13847711, 5387222}, + }, + { + FieldElement{-18582163, -3416217, 17824843, -2340966, 22744343, -10442611, 8763061, 3617786, -19600662, 10370991}, + FieldElement{20246567, -14369378, 22358229, -543712, 18507283, -10413996, 14554437, -8746092, 32232924, 16763880}, + FieldElement{9648505, 10094563, 26416693, 14745928, -30374318, -6472621, 11094161, 15689506, 3140038, -16510092}, + }, + { + FieldElement{-16160072, 5472695, 31895588, 4744994, 8823515, 10365685, -27224800, 9448613, -28774454, 366295}, + FieldElement{19153450, 11523972, -11096490, -6503142, -24647631, 5420647, 28344573, 8041113, 719605, 11671788}, + FieldElement{8678025, 2694440, -6808014, 2517372, 4964326, 11152271, -15432916, -15266516, 27000813, -10195553}, + }, + { + FieldElement{-15157904, 7134312, 8639287, -2814877, -7235688, 10421742, 564065, 5336097, 6750977, -14521026}, + FieldElement{11836410, -3979488, 26297894, 16080799, 23455045, 15735944, 1695823, -8819122, 8169720, 16220347}, + FieldElement{-18115838, 8653647, 17578566, -6092619, -8025777, -16012763, -11144307, -2627664, -5990708, -14166033}, + }, + { + FieldElement{-23308498, -10968312, 15213228, -10081214, -30853605, -11050004, 27884329, 2847284, 2655861, 1738395}, + FieldElement{-27537433, -14253021, -25336301, -8002780, -9370762, 8129821, 21651608, -3239336, -19087449, -11005278}, + FieldElement{1533110, 3437855, 23735889, 459276, 29970501, 11335377, 26030092, 5821408, 10478196, 8544890}, + }, + { + FieldElement{32173121, -16129311, 24896207, 3921497, 22579056, -3410854, 19270449, 12217473, 17789017, -3395995}, + FieldElement{-30552961, -2228401, -15578829, -10147201, 13243889, 517024, 15479401, -3853233, 30460520, 1052596}, + FieldElement{-11614875, 13323618, 32618793, 8175907, -15230173, 12596687, 27491595, -4612359, 3179268, -9478891}, + }, + { + FieldElement{31947069, -14366651, -4640583, -15339921, -15125977, -6039709, -14756777, -16411740, 19072640, -9511060}, + FieldElement{11685058, 11822410, 3158003, -13952594, 33402194, -4165066, 5977896, -5215017, 473099, 5040608}, + FieldElement{-20290863, 8198642, -27410132, 11602123, 1290375, -2799760, 28326862, 1721092, -19558642, -3131606}, + }, + }, + { + { + FieldElement{7881532, 10687937, 7578723, 7738378, -18951012, -2553952, 21820786, 8076149, -27868496, 11538389}, + FieldElement{-19935666, 3899861, 18283497, -6801568, -15728660, -11249211, 8754525, 7446702, -5676054, 5797016}, + FieldElement{-11295600, -3793569, -15782110, -7964573, 12708869, -8456199, 2014099, -9050574, -2369172, -5877341}, + }, + { + FieldElement{-22472376, -11568741, -27682020, 1146375, 18956691, 16640559, 1192730, -3714199, 15123619, 10811505}, + FieldElement{14352098, -3419715, -18942044, 10822655, 32750596, 4699007, -70363, 15776356, -28886779, -11974553}, + FieldElement{-28241164, -8072475, -4978962, -5315317, 29416931, 1847569, -20654173, -16484855, 4714547, -9600655}, + }, + { + FieldElement{15200332, 8368572, 19679101, 15970074, -31872674, 1959451, 24611599, -4543832, -11745876, 12340220}, + FieldElement{12876937, -10480056, 33134381, 6590940, -6307776, 14872440, 9613953, 8241152, 15370987, 9608631}, + FieldElement{-4143277, -12014408, 8446281, -391603, 4407738, 13629032, -7724868, 15866074, -28210621, -8814099}, + }, + { + FieldElement{26660628, -15677655, 8393734, 358047, -7401291, 992988, -23904233, 858697, 20571223, 8420556}, + FieldElement{14620715, 13067227, -15447274, 8264467, 14106269, 15080814, 33531827, 12516406, -21574435, -12476749}, + FieldElement{236881, 10476226, 57258, -14677024, 6472998, 2466984, 17258519, 7256740, 8791136, 15069930}, + }, + { + FieldElement{1276410, -9371918, 22949635, -16322807, -23493039, -5702186, 14711875, 4874229, -30663140, -2331391}, + FieldElement{5855666, 4990204, -13711848, 7294284, -7804282, 1924647, -1423175, -7912378, -33069337, 9234253}, + FieldElement{20590503, -9018988, 31529744, -7352666, -2706834, 10650548, 31559055, -11609587, 18979186, 13396066}, + }, + { + FieldElement{24474287, 4968103, 22267082, 4407354, 24063882, -8325180, -18816887, 13594782, 33514650, 7021958}, + FieldElement{-11566906, -6565505, -21365085, 15928892, -26158305, 4315421, -25948728, -3916677, -21480480, 12868082}, + FieldElement{-28635013, 13504661, 19988037, -2132761, 21078225, 6443208, -21446107, 2244500, -12455797, -8089383}, + }, + { + FieldElement{-30595528, 13793479, -5852820, 319136, -25723172, -6263899, 33086546, 8957937, -15233648, 5540521}, + FieldElement{-11630176, -11503902, -8119500, -7643073, 2620056, 1022908, -23710744, -1568984, -16128528, -14962807}, + FieldElement{23152971, 775386, 27395463, 14006635, -9701118, 4649512, 1689819, 892185, -11513277, -15205948}, + }, + { + FieldElement{9770129, 9586738, 26496094, 4324120, 1556511, -3550024, 27453819, 4763127, -19179614, 5867134}, + FieldElement{-32765025, 1927590, 31726409, -4753295, 23962434, -16019500, 27846559, 5931263, -29749703, -16108455}, + FieldElement{27461885, -2977536, 22380810, 1815854, -23033753, -3031938, 7283490, -15148073, -19526700, 7734629}, + }, + }, + { + { + FieldElement{-8010264, -9590817, -11120403, 6196038, 29344158, -13430885, 7585295, -3176626, 18549497, 15302069}, + FieldElement{-32658337, -6171222, -7672793, -11051681, 6258878, 13504381, 10458790, -6418461, -8872242, 8424746}, + FieldElement{24687205, 8613276, -30667046, -3233545, 1863892, -1830544, 19206234, 7134917, -11284482, -828919}, + }, + { + FieldElement{11334899, -9218022, 8025293, 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8561328, -20155687, -11632979, -14754271, -10812892}, + }, + { + FieldElement{15961858, 14150409, 26716931, -665832, -22794328, 13603569, 11829573, 7467844, -28822128, 929275}, + FieldElement{11038231, -11582396, -27310482, -7316562, -10498527, -16307831, -23479533, -9371869, -21393143, 2465074}, + FieldElement{20017163, -4323226, 27915242, 1529148, 12396362, 15675764, 13817261, -9658066, 2463391, -4622140}, + }, + { + FieldElement{-16358878, -12663911, -12065183, 4996454, -1256422, 1073572, 9583558, 12851107, 4003896, 12673717}, + FieldElement{-1731589, -15155870, -3262930, 16143082, 19294135, 13385325, 14741514, -9103726, 7903886, 2348101}, + FieldElement{24536016, -16515207, 12715592, -3862155, 1511293, 10047386, -3842346, -7129159, -28377538, 10048127}, + }, + }, + { + { + FieldElement{-12622226, -6204820, 30718825, 2591312, -10617028, 12192840, 18873298, -7297090, -32297756, 15221632}, + FieldElement{-26478122, -11103864, 11546244, -1852483, 9180880, 7656409, -21343950, 2095755, 29769758, 6593415}, + FieldElement{-31994208, -2907461, 4176912, 3264766, 12538965, -868111, 26312345, -6118678, 30958054, 8292160}, + }, + { + FieldElement{31429822, -13959116, 29173532, 15632448, 12174511, -2760094, 32808831, 3977186, 26143136, -3148876}, + FieldElement{22648901, 1402143, -22799984, 13746059, 7936347, 365344, -8668633, -1674433, -3758243, -2304625}, + FieldElement{-15491917, 8012313, -2514730, -12702462, -23965846, -10254029, -1612713, -1535569, -16664475, 8194478}, + }, + { + FieldElement{27338066, -7507420, -7414224, 10140405, -19026427, -6589889, 27277191, 8855376, 28572286, 3005164}, + FieldElement{26287124, 4821776, 25476601, -4145903, -3764513, -15788984, -18008582, 1182479, -26094821, -13079595}, + FieldElement{-7171154, 3178080, 23970071, 6201893, -17195577, -4489192, -21876275, -13982627, 32208683, -1198248}, + }, + { + FieldElement{-16657702, 2817643, -10286362, 14811298, 6024667, 13349505, -27315504, -10497842, -27672585, -11539858}, + FieldElement{15941029, -9405932, -21367050, 8062055, 31876073, -238629, -15278393, -1444429, 15397331, -4130193}, + FieldElement{8934485, -13485467, -23286397, -13423241, -32446090, 14047986, 31170398, -1441021, -27505566, 15087184}, + }, + { + FieldElement{-18357243, -2156491, 24524913, -16677868, 15520427, -6360776, -15502406, 11461896, 16788528, -5868942}, + FieldElement{-1947386, 16013773, 21750665, 3714552, -17401782, -16055433, -3770287, -10323320, 31322514, -11615635}, + FieldElement{21426655, -5650218, -13648287, -5347537, -28812189, -4920970, -18275391, -14621414, 13040862, -12112948}, + }, + { + FieldElement{11293895, 12478086, -27136401, 15083750, -29307421, 14748872, 14555558, -13417103, 1613711, 4896935}, + FieldElement{-25894883, 15323294, -8489791, -8057900, 25967126, -13425460, 2825960, -4897045, -23971776, -11267415}, + FieldElement{-15924766, -5229880, -17443532, 6410664, 3622847, 10243618, 20615400, 12405433, -23753030, -8436416}, + }, + { + FieldElement{-7091295, 12556208, -20191352, 9025187, -17072479, 4333801, 4378436, 2432030, 23097949, -566018}, + FieldElement{4565804, -16025654, 20084412, -7842817, 1724999, 189254, 24767264, 10103221, -18512313, 2424778}, + FieldElement{366633, -11976806, 8173090, -6890119, 30788634, 5745705, -7168678, 1344109, -3642553, 12412659}, + }, + { + FieldElement{-24001791, 7690286, 14929416, -168257, -32210835, -13412986, 24162697, -15326504, -3141501, 11179385}, + FieldElement{18289522, -14724954, 8056945, 16430056, -21729724, 7842514, -6001441, -1486897, -18684645, -11443503}, + FieldElement{476239, 6601091, -6152790, -9723375, 17503545, -4863900, 27672959, 13403813, 11052904, 5219329}, + }, + }, + { + { + FieldElement{20678546, -8375738, -32671898, 8849123, -5009758, 14574752, 31186971, -3973730, 9014762, -8579056}, + FieldElement{-13644050, -10350239, -15962508, 5075808, -1514661, -11534600, -33102500, 9160280, 8473550, -3256838}, + FieldElement{24900749, 14435722, 17209120, -15292541, -22592275, 9878983, -7689309, -16335821, -24568481, 11788948}, + }, + { + FieldElement{-3118155, -11395194, -13802089, 14797441, 9652448, -6845904, -20037437, 10410733, -24568470, -1458691}, + FieldElement{-15659161, 16736706, -22467150, 10215878, -9097177, 7563911, 11871841, -12505194, -18513325, 8464118}, + FieldElement{-23400612, 8348507, -14585951, -861714, -3950205, -6373419, 14325289, 8628612, 33313881, -8370517}, + }, + { + FieldElement{-20186973, -4967935, 22367356, 5271547, -1097117, -4788838, -24805667, -10236854, -8940735, -5818269}, + FieldElement{-6948785, -1795212, -32625683, -16021179, 32635414, -7374245, 15989197, -12838188, 28358192, -4253904}, + FieldElement{-23561781, -2799059, -32351682, -1661963, -9147719, 10429267, -16637684, 4072016, -5351664, 5596589}, + }, + { + FieldElement{-28236598, -3390048, 12312896, 6213178, 3117142, 16078565, 29266239, 2557221, 1768301, 15373193}, + FieldElement{-7243358, -3246960, -4593467, -7553353, -127927, -912245, -1090902, -4504991, -24660491, 3442910}, + FieldElement{-30210571, 5124043, 14181784, 8197961, 18964734, -11939093, 22597931, 7176455, -18585478, 13365930}, + }, + { + FieldElement{-7877390, -1499958, 8324673, 4690079, 6261860, 890446, 24538107, -8570186, -9689599, -3031667}, + FieldElement{25008904, -10771599, -4305031, -9638010, 16265036, 15721635, 683793, -11823784, 15723479, -15163481}, + FieldElement{-9660625, 12374379, -27006999, -7026148, -7724114, -12314514, 11879682, 5400171, 519526, -1235876}, + }, + { + FieldElement{22258397, -16332233, -7869817, 14613016, -22520255, -2950923, -20353881, 7315967, 16648397, 7605640}, + FieldElement{-8081308, -8464597, -8223311, 9719710, 19259459, -15348212, 23994942, -5281555, -9468848, 4763278}, + FieldElement{-21699244, 9220969, -15730624, 1084137, -25476107, -2852390, 31088447, -7764523, -11356529, 728112}, + }, + { + FieldElement{26047220, -11751471, -6900323, -16521798, 24092068, 9158119, -4273545, -12555558, -29365436, -5498272}, + FieldElement{17510331, -322857, 5854289, 8403524, 17133918, -3112612, -28111007, 12327945, 10750447, 10014012}, + FieldElement{-10312768, 3936952, 9156313, -8897683, 16498692, -994647, -27481051, -666732, 3424691, 7540221}, + }, + { + FieldElement{30322361, -6964110, 11361005, -4143317, 7433304, 4989748, -7071422, -16317219, -9244265, 15258046}, + FieldElement{13054562, -2779497, 19155474, 469045, -12482797, 4566042, 5631406, 2711395, 1062915, -5136345}, + FieldElement{-19240248, -11254599, -29509029, -7499965, -5835763, 13005411, -6066489, 12194497, 32960380, 1459310}, + }, + }, + { + { + FieldElement{19852034, 7027924, 23669353, 10020366, 8586503, -6657907, 394197, -6101885, 18638003, -11174937}, + FieldElement{31395534, 15098109, 26581030, 8030562, -16527914, -5007134, 9012486, -7584354, -6643087, -5442636}, + FieldElement{-9192165, -2347377, -1997099, 4529534, 25766844, 607986, -13222, 9677543, -32294889, -6456008}, + }, + { + FieldElement{-2444496, -149937, 29348902, 8186665, 1873760, 12489863, -30934579, -7839692, -7852844, -8138429}, + FieldElement{-15236356, -15433509, 7766470, 746860, 26346930, -10221762, -27333451, 10754588, -9431476, 5203576}, + FieldElement{31834314, 14135496, -770007, 5159118, 20917671, -16768096, -7467973, -7337524, 31809243, 7347066}, + }, + { + FieldElement{-9606723, -11874240, 20414459, 13033986, 13716524, -11691881, 19797970, -12211255, 15192876, -2087490}, + FieldElement{-12663563, -2181719, 1168162, -3804809, 26747877, -14138091, 10609330, 12694420, 33473243, -13382104}, + FieldElement{33184999, 11180355, 15832085, -11385430, -1633671, 225884, 15089336, -11023903, -6135662, 14480053}, + }, + { + FieldElement{31308717, -5619998, 31030840, -1897099, 15674547, -6582883, 5496208, 13685227, 27595050, 8737275}, + FieldElement{-20318852, -15150239, 10933843, -16178022, 8335352, -7546022, -31008351, -12610604, 26498114, 66511}, + FieldElement{22644454, -8761729, -16671776, 4884562, -3105614, -13559366, 30540766, -4286747, -13327787, -7515095}, + }, + { + FieldElement{-28017847, 9834845, 18617207, -2681312, -3401956, -13307506, 8205540, 13585437, -17127465, 15115439}, + FieldElement{23711543, -672915, 31206561, -8362711, 6164647, -9709987, -33535882, -1426096, 8236921, 16492939}, + FieldElement{-23910559, -13515526, -26299483, -4503841, 25005590, -7687270, 19574902, 10071562, 6708380, -6222424}, + }, + { + FieldElement{2101391, -4930054, 19702731, 2367575, -15427167, 1047675, 5301017, 9328700, 29955601, -11678310}, + FieldElement{3096359, 9271816, -21620864, -15521844, -14847996, -7592937, -25892142, -12635595, -9917575, 6216608}, + FieldElement{-32615849, 338663, -25195611, 2510422, -29213566, -13820213, 24822830, -6146567, -26767480, 7525079}, + }, + { + FieldElement{-23066649, -13985623, 16133487, -7896178, -3389565, 778788, -910336, -2782495, -19386633, 11994101}, + FieldElement{21691500, -13624626, -641331, -14367021, 3285881, -3483596, -25064666, 9718258, -7477437, 13381418}, + FieldElement{18445390, -4202236, 14979846, 11622458, -1727110, -3582980, 23111648, -6375247, 28535282, 15779576}, + }, + { + FieldElement{30098053, 3089662, -9234387, 16662135, -21306940, 11308411, -14068454, 12021730, 9955285, -16303356}, + FieldElement{9734894, -14576830, -7473633, -9138735, 2060392, 11313496, -18426029, 9924399, 20194861, 13380996}, + FieldElement{-26378102, -7965207, -22167821, 15789297, -18055342, -6168792, -1984914, 15707771, 26342023, 10146099}, + }, + }, + { + { + FieldElement{-26016874, -219943, 21339191, -41388, 19745256, -2878700, -29637280, 2227040, 21612326, -545728}, + FieldElement{-13077387, 1184228, 23562814, -5970442, -20351244, -6348714, 25764461, 12243797, -20856566, 11649658}, + FieldElement{-10031494, 11262626, 27384172, 2271902, 26947504, -15997771, 39944, 6114064, 33514190, 2333242}, + }, + { + FieldElement{-21433588, -12421821, 8119782, 7219913, -21830522, -9016134, -6679750, -12670638, 24350578, -13450001}, + FieldElement{-4116307, -11271533, -23886186, 4843615, -30088339, 690623, -31536088, -10406836, 8317860, 12352766}, + FieldElement{18200138, -14475911, -33087759, -2696619, -23702521, -9102511, -23552096, -2287550, 20712163, 6719373}, + }, + { + FieldElement{26656208, 6075253, -7858556, 1886072, -28344043, 4262326, 11117530, -3763210, 26224235, -3297458}, + FieldElement{-17168938, -14854097, -3395676, -16369877, -19954045, 14050420, 21728352, 9493610, 18620611, -16428628}, + FieldElement{-13323321, 13325349, 11432106, 5964811, 18609221, 6062965, -5269471, -9725556, -30701573, -16479657}, + }, + { + FieldElement{-23860538, -11233159, 26961357, 1640861, -32413112, -16737940, 12248509, -5240639, 13735342, 1934062}, + FieldElement{25089769, 6742589, 17081145, -13406266, 21909293, -16067981, -15136294, -3765346, -21277997, 5473616}, + FieldElement{31883677, -7961101, 1083432, -11572403, 22828471, 13290673, -7125085, 12469656, 29111212, -5451014}, + }, + { + FieldElement{24244947, -15050407, -26262976, 2791540, -14997599, 16666678, 24367466, 6388839, -10295587, 452383}, + FieldElement{-25640782, -3417841, 5217916, 16224624, 19987036, -4082269, -24236251, -5915248, 15766062, 8407814}, + FieldElement{-20406999, 13990231, 15495425, 16395525, 5377168, 15166495, -8917023, -4388953, -8067909, 2276718}, + }, + { + FieldElement{30157918, 12924066, -17712050, 9245753, 19895028, 3368142, -23827587, 5096219, 22740376, -7303417}, + FieldElement{2041139, -14256350, 7783687, 13876377, -25946985, -13352459, 24051124, 13742383, -15637599, 13295222}, + FieldElement{33338237, -8505733, 12532113, 7977527, 9106186, -1715251, -17720195, -4612972, -4451357, -14669444}, + }, + { + FieldElement{-20045281, 5454097, -14346548, 6447146, 28862071, 1883651, -2469266, -4141880, 7770569, 9620597}, + FieldElement{23208068, 7979712, 33071466, 8149229, 1758231, -10834995, 30945528, -1694323, -33502340, -14767970}, + FieldElement{1439958, -16270480, -1079989, -793782, 4625402, 10647766, -5043801, 1220118, 30494170, -11440799}, + }, + { + FieldElement{-5037580, -13028295, -2970559, -3061767, 15640974, -6701666, -26739026, 926050, -1684339, -13333647}, + FieldElement{13908495, -3549272, 30919928, -6273825, -21521863, 7989039, 9021034, 9078865, 3353509, 4033511}, + FieldElement{-29663431, -15113610, 32259991, -344482, 24295849, -12912123, 23161163, 8839127, 27485041, 7356032}, + }, + }, + { + { + FieldElement{9661027, 705443, 11980065, -5370154, -1628543, 14661173, -6346142, 2625015, 28431036, -16771834}, + FieldElement{-23839233, -8311415, -25945511, 7480958, -17681669, -8354183, -22545972, 14150565, 15970762, 4099461}, + FieldElement{29262576, 16756590, 26350592, -8793563, 8529671, -11208050, 13617293, -9937143, 11465739, 8317062}, + }, + { + FieldElement{-25493081, -6962928, 32500200, -9419051, -23038724, -2302222, 14898637, 3848455, 20969334, -5157516}, + FieldElement{-20384450, -14347713, -18336405, 13884722, -33039454, 2842114, -21610826, -3649888, 11177095, 14989547}, + FieldElement{-24496721, -11716016, 16959896, 2278463, 12066309, 10137771, 13515641, 2581286, -28487508, 9930240}, + }, + { + FieldElement{-17751622, -2097826, 16544300, -13009300, -15914807, -14949081, 18345767, -13403753, 16291481, -5314038}, + FieldElement{-33229194, 2553288, 32678213, 9875984, 8534129, 6889387, -9676774, 6957617, 4368891, 9788741}, + FieldElement{16660756, 7281060, -10830758, 12911820, 20108584, -8101676, -21722536, -8613148, 16250552, -11111103}, + }, + { + FieldElement{-19765507, 2390526, -16551031, 14161980, 1905286, 6414907, 4689584, 10604807, -30190403, 4782747}, + FieldElement{-1354539, 14736941, -7367442, -13292886, 7710542, -14155590, -9981571, 4383045, 22546403, 437323}, + FieldElement{31665577, -12180464, -16186830, 1491339, -18368625, 3294682, 27343084, 2786261, -30633590, -14097016}, + }, + { + FieldElement{-14467279, -683715, -33374107, 7448552, 19294360, 14334329, -19690631, 2355319, -19284671, -6114373}, + FieldElement{15121312, -15796162, 6377020, -6031361, -10798111, -12957845, 18952177, 15496498, -29380133, 11754228}, + FieldElement{-2637277, -13483075, 8488727, -14303896, 12728761, -1622493, 7141596, 11724556, 22761615, -10134141}, + }, + { + FieldElement{16918416, 11729663, -18083579, 3022987, -31015732, -13339659, -28741185, -12227393, 32851222, 11717399}, + FieldElement{11166634, 7338049, -6722523, 4531520, -29468672, -7302055, 31474879, 3483633, -1193175, -4030831}, + FieldElement{-185635, 9921305, 31456609, -13536438, -12013818, 13348923, 33142652, 6546660, -19985279, -3948376}, + }, + { + FieldElement{-32460596, 11266712, -11197107, -7899103, 31703694, 3855903, -8537131, -12833048, -30772034, -15486313}, + FieldElement{-18006477, 12709068, 3991746, -6479188, -21491523, -10550425, -31135347, -16049879, 10928917, 3011958}, + FieldElement{-6957757, -15594337, 31696059, 334240, 29576716, 14796075, -30831056, -12805180, 18008031, 10258577}, + }, + { + FieldElement{-22448644, 15655569, 7018479, -4410003, -30314266, -1201591, -1853465, 1367120, 25127874, 6671743}, + FieldElement{29701166, -14373934, -10878120, 9279288, -17568, 13127210, 21382910, 11042292, 25838796, 4642684}, + FieldElement{-20430234, 14955537, -24126347, 8124619, -5369288, -5990470, 30468147, -13900640, 18423289, 4177476}, + }, + }, +} diff --git a/vendor/github.com/keybase/go-crypto/ed25519/internal/edwards25519/edwards25519.go b/vendor/github.com/keybase/go-crypto/ed25519/internal/edwards25519/edwards25519.go new file mode 100644 index 00000000..5f8b9947 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/ed25519/internal/edwards25519/edwards25519.go @@ -0,0 +1,1771 @@ +// Copyright 2016 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package edwards25519 + +// This code is a port of the public domain, “ref10” implementation of ed25519 +// from SUPERCOP. + +// FieldElement represents an element of the field GF(2^255 - 19). An element +// t, entries t[0]...t[9], represents the integer t[0]+2^26 t[1]+2^51 t[2]+2^77 +// t[3]+2^102 t[4]+...+2^230 t[9]. Bounds on each t[i] vary depending on +// context. +type FieldElement [10]int32 + +var zero FieldElement + +func FeZero(fe *FieldElement) { + copy(fe[:], zero[:]) +} + +func FeOne(fe *FieldElement) { + FeZero(fe) + fe[0] = 1 +} + +func FeAdd(dst, a, b *FieldElement) { + dst[0] = a[0] + b[0] + dst[1] = a[1] + b[1] + dst[2] = a[2] + b[2] + dst[3] = a[3] + b[3] + dst[4] = a[4] + b[4] + dst[5] = a[5] + b[5] + dst[6] = a[6] + b[6] + dst[7] = a[7] + b[7] + dst[8] = a[8] + b[8] + dst[9] = a[9] + b[9] +} + +func FeSub(dst, a, b *FieldElement) { + dst[0] = a[0] - b[0] + dst[1] = a[1] - b[1] + dst[2] = a[2] - b[2] + dst[3] = a[3] - b[3] + dst[4] = a[4] - b[4] + dst[5] = a[5] - b[5] + dst[6] = a[6] - b[6] + dst[7] = a[7] - b[7] + dst[8] = a[8] - b[8] + dst[9] = a[9] - b[9] +} + +func FeCopy(dst, src *FieldElement) { + copy(dst[:], src[:]) +} + +// Replace (f,g) with (g,g) if b == 1; +// replace (f,g) with (f,g) if b == 0. +// +// Preconditions: b in {0,1}. +func FeCMove(f, g *FieldElement, b int32) { + b = -b + f[0] ^= b & (f[0] ^ g[0]) + f[1] ^= b & (f[1] ^ g[1]) + f[2] ^= b & (f[2] ^ g[2]) + f[3] ^= b & (f[3] ^ g[3]) + f[4] ^= b & (f[4] ^ g[4]) + f[5] ^= b & (f[5] ^ g[5]) + f[6] ^= b & (f[6] ^ g[6]) + f[7] ^= b & (f[7] ^ g[7]) + f[8] ^= b & (f[8] ^ g[8]) + f[9] ^= b & (f[9] ^ g[9]) +} + +func load3(in []byte) int64 { + var r int64 + r = int64(in[0]) + r |= int64(in[1]) << 8 + r |= int64(in[2]) << 16 + return r +} + +func load4(in []byte) int64 { + var r int64 + r = int64(in[0]) + r |= int64(in[1]) << 8 + r |= int64(in[2]) << 16 + r |= int64(in[3]) << 24 + return r +} + +func FeFromBytes(dst *FieldElement, src *[32]byte) { + h0 := load4(src[:]) + h1 := load3(src[4:]) << 6 + h2 := load3(src[7:]) << 5 + h3 := load3(src[10:]) << 3 + h4 := load3(src[13:]) << 2 + h5 := load4(src[16:]) + h6 := load3(src[20:]) << 7 + h7 := load3(src[23:]) << 5 + h8 := load3(src[26:]) << 4 + h9 := (load3(src[29:]) & 8388607) << 2 + + FeCombine(dst, h0, h1, h2, h3, h4, h5, h6, h7, h8, h9) +} + +// FeToBytes marshals h to s. +// Preconditions: +// |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc. +// +// Write p=2^255-19; q=floor(h/p). +// Basic claim: q = floor(2^(-255)(h + 19 2^(-25)h9 + 2^(-1))). +// +// Proof: +// Have |h|<=p so |q|<=1 so |19^2 2^(-255) q|<1/4. +// Also have |h-2^230 h9|<2^230 so |19 2^(-255)(h-2^230 h9)|<1/4. +// +// Write y=2^(-1)-19^2 2^(-255)q-19 2^(-255)(h-2^230 h9). +// Then 0> 25 + q = (h[0] + q) >> 26 + q = (h[1] + q) >> 25 + q = (h[2] + q) >> 26 + q = (h[3] + q) >> 25 + q = (h[4] + q) >> 26 + q = (h[5] + q) >> 25 + q = (h[6] + q) >> 26 + q = (h[7] + q) >> 25 + q = (h[8] + q) >> 26 + q = (h[9] + q) >> 25 + + // Goal: Output h-(2^255-19)q, which is between 0 and 2^255-20. + h[0] += 19 * q + // Goal: Output h-2^255 q, which is between 0 and 2^255-20. + + carry[0] = h[0] >> 26 + h[1] += carry[0] + h[0] -= carry[0] << 26 + carry[1] = h[1] >> 25 + h[2] += carry[1] + h[1] -= carry[1] << 25 + carry[2] = h[2] >> 26 + h[3] += carry[2] + h[2] -= carry[2] << 26 + carry[3] = h[3] >> 25 + h[4] += carry[3] + h[3] -= carry[3] << 25 + carry[4] = h[4] >> 26 + h[5] += carry[4] + h[4] -= carry[4] << 26 + carry[5] = h[5] >> 25 + h[6] += carry[5] + h[5] -= carry[5] << 25 + carry[6] = h[6] >> 26 + h[7] += carry[6] + h[6] -= carry[6] << 26 + carry[7] = h[7] >> 25 + h[8] += carry[7] + h[7] -= carry[7] << 25 + carry[8] = h[8] >> 26 + h[9] += carry[8] + h[8] -= carry[8] << 26 + carry[9] = h[9] >> 25 + h[9] -= carry[9] << 25 + // h10 = carry9 + + // Goal: Output h[0]+...+2^255 h10-2^255 q, which is between 0 and 2^255-20. + // Have h[0]+...+2^230 h[9] between 0 and 2^255-1; + // evidently 2^255 h10-2^255 q = 0. + // Goal: Output h[0]+...+2^230 h[9]. + + s[0] = byte(h[0] >> 0) + s[1] = byte(h[0] >> 8) + s[2] = byte(h[0] >> 16) + s[3] = byte((h[0] >> 24) | (h[1] << 2)) + s[4] = byte(h[1] >> 6) + s[5] = byte(h[1] >> 14) + s[6] = byte((h[1] >> 22) | (h[2] << 3)) + s[7] = byte(h[2] >> 5) + s[8] = byte(h[2] >> 13) + s[9] = byte((h[2] >> 21) | (h[3] << 5)) + s[10] = byte(h[3] >> 3) + s[11] = byte(h[3] >> 11) + s[12] = byte((h[3] >> 19) | (h[4] << 6)) + s[13] = byte(h[4] >> 2) + s[14] = byte(h[4] >> 10) + s[15] = byte(h[4] >> 18) + s[16] = byte(h[5] >> 0) + s[17] = byte(h[5] >> 8) + s[18] = byte(h[5] >> 16) + s[19] = byte((h[5] >> 24) | (h[6] << 1)) + s[20] = byte(h[6] >> 7) + s[21] = byte(h[6] >> 15) + s[22] = byte((h[6] >> 23) | (h[7] << 3)) + s[23] = byte(h[7] >> 5) + s[24] = byte(h[7] >> 13) + s[25] = byte((h[7] >> 21) | (h[8] << 4)) + s[26] = byte(h[8] >> 4) + s[27] = byte(h[8] >> 12) + s[28] = byte((h[8] >> 20) | (h[9] << 6)) + s[29] = byte(h[9] >> 2) + s[30] = byte(h[9] >> 10) + s[31] = byte(h[9] >> 18) +} + +func FeIsNegative(f *FieldElement) byte { + var s [32]byte + FeToBytes(&s, f) + return s[0] & 1 +} + +func FeIsNonZero(f *FieldElement) int32 { + var s [32]byte + FeToBytes(&s, f) + var x uint8 + for _, b := range s { + x |= b + } + x |= x >> 4 + x |= x >> 2 + x |= x >> 1 + return int32(x & 1) +} + +// FeNeg sets h = -f +// +// Preconditions: +// |f| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc. +// +// Postconditions: +// |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc. +func FeNeg(h, f *FieldElement) { + h[0] = -f[0] + h[1] = -f[1] + h[2] = -f[2] + h[3] = -f[3] + h[4] = -f[4] + h[5] = -f[5] + h[6] = -f[6] + h[7] = -f[7] + h[8] = -f[8] + h[9] = -f[9] +} + +func FeCombine(h *FieldElement, h0, h1, h2, h3, h4, h5, h6, h7, h8, h9 int64) { + var c0, c1, c2, c3, c4, c5, c6, c7, c8, c9 int64 + + /* + |h0| <= (1.1*1.1*2^52*(1+19+19+19+19)+1.1*1.1*2^50*(38+38+38+38+38)) + i.e. |h0| <= 1.2*2^59; narrower ranges for h2, h4, h6, h8 + |h1| <= (1.1*1.1*2^51*(1+1+19+19+19+19+19+19+19+19)) + i.e. |h1| <= 1.5*2^58; narrower ranges for h3, h5, h7, h9 + */ + + c0 = (h0 + (1 << 25)) >> 26 + h1 += c0 + h0 -= c0 << 26 + c4 = (h4 + (1 << 25)) >> 26 + h5 += c4 + h4 -= c4 << 26 + /* |h0| <= 2^25 */ + /* |h4| <= 2^25 */ + /* |h1| <= 1.51*2^58 */ + /* |h5| <= 1.51*2^58 */ + + c1 = (h1 + (1 << 24)) >> 25 + h2 += c1 + h1 -= c1 << 25 + c5 = (h5 + (1 << 24)) >> 25 + h6 += c5 + h5 -= c5 << 25 + /* |h1| <= 2^24; from now on fits into int32 */ + /* |h5| <= 2^24; from now on fits into int32 */ + /* |h2| <= 1.21*2^59 */ + /* |h6| <= 1.21*2^59 */ + + c2 = (h2 + (1 << 25)) >> 26 + h3 += c2 + h2 -= c2 << 26 + c6 = (h6 + (1 << 25)) >> 26 + h7 += c6 + h6 -= c6 << 26 + /* |h2| <= 2^25; from now on fits into int32 unchanged */ + /* |h6| <= 2^25; from now on fits into int32 unchanged */ + /* |h3| <= 1.51*2^58 */ + /* |h7| <= 1.51*2^58 */ + + c3 = (h3 + (1 << 24)) >> 25 + h4 += c3 + h3 -= c3 << 25 + c7 = (h7 + (1 << 24)) >> 25 + h8 += c7 + h7 -= c7 << 25 + /* |h3| <= 2^24; from now on fits into int32 unchanged */ + /* |h7| <= 2^24; from now on fits into int32 unchanged */ + /* |h4| <= 1.52*2^33 */ + /* |h8| <= 1.52*2^33 */ + + c4 = (h4 + (1 << 25)) >> 26 + h5 += c4 + h4 -= c4 << 26 + c8 = (h8 + (1 << 25)) >> 26 + h9 += c8 + h8 -= c8 << 26 + /* |h4| <= 2^25; from now on fits into int32 unchanged */ + /* |h8| <= 2^25; from now on fits into int32 unchanged */ + /* |h5| <= 1.01*2^24 */ + /* |h9| <= 1.51*2^58 */ + + c9 = (h9 + (1 << 24)) >> 25 + h0 += c9 * 19 + h9 -= c9 << 25 + /* |h9| <= 2^24; from now on fits into int32 unchanged */ + /* |h0| <= 1.8*2^37 */ + + c0 = (h0 + (1 << 25)) >> 26 + h1 += c0 + h0 -= c0 << 26 + /* |h0| <= 2^25; from now on fits into int32 unchanged */ + /* |h1| <= 1.01*2^24 */ + + h[0] = int32(h0) + h[1] = int32(h1) + h[2] = int32(h2) + h[3] = int32(h3) + h[4] = int32(h4) + h[5] = int32(h5) + h[6] = int32(h6) + h[7] = int32(h7) + h[8] = int32(h8) + h[9] = int32(h9) +} + +// FeMul calculates h = f * g +// Can overlap h with f or g. +// +// Preconditions: +// |f| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc. +// |g| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc. +// +// Postconditions: +// |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc. +// +// Notes on implementation strategy: +// +// Using schoolbook multiplication. +// Karatsuba would save a little in some cost models. +// +// Most multiplications by 2 and 19 are 32-bit precomputations; +// cheaper than 64-bit postcomputations. +// +// There is one remaining multiplication by 19 in the carry chain; +// one *19 precomputation can be merged into this, +// but the resulting data flow is considerably less clean. +// +// There are 12 carries below. +// 10 of them are 2-way parallelizable and vectorizable. +// Can get away with 11 carries, but then data flow is much deeper. +// +// With tighter constraints on inputs, can squeeze carries into int32. +func FeMul(h, f, g *FieldElement) { + f0 := int64(f[0]) + f1 := int64(f[1]) + f2 := int64(f[2]) + f3 := int64(f[3]) + f4 := int64(f[4]) + f5 := int64(f[5]) + f6 := int64(f[6]) + f7 := int64(f[7]) + f8 := int64(f[8]) + f9 := int64(f[9]) + + f1_2 := int64(2 * f[1]) + f3_2 := int64(2 * f[3]) + f5_2 := int64(2 * f[5]) + f7_2 := int64(2 * f[7]) + f9_2 := int64(2 * f[9]) + + g0 := int64(g[0]) + g1 := int64(g[1]) + g2 := int64(g[2]) + g3 := int64(g[3]) + g4 := int64(g[4]) + g5 := int64(g[5]) + g6 := int64(g[6]) + g7 := int64(g[7]) + g8 := int64(g[8]) + g9 := int64(g[9]) + + g1_19 := int64(19 * g[1]) /* 1.4*2^29 */ + g2_19 := int64(19 * g[2]) /* 1.4*2^30; still ok */ + g3_19 := int64(19 * g[3]) + g4_19 := int64(19 * g[4]) + g5_19 := int64(19 * g[5]) + g6_19 := int64(19 * g[6]) + g7_19 := int64(19 * g[7]) + g8_19 := int64(19 * g[8]) + g9_19 := int64(19 * g[9]) + + h0 := f0*g0 + f1_2*g9_19 + f2*g8_19 + f3_2*g7_19 + f4*g6_19 + f5_2*g5_19 + f6*g4_19 + f7_2*g3_19 + f8*g2_19 + f9_2*g1_19 + h1 := f0*g1 + f1*g0 + f2*g9_19 + f3*g8_19 + f4*g7_19 + f5*g6_19 + f6*g5_19 + f7*g4_19 + f8*g3_19 + f9*g2_19 + h2 := f0*g2 + f1_2*g1 + f2*g0 + f3_2*g9_19 + f4*g8_19 + f5_2*g7_19 + f6*g6_19 + f7_2*g5_19 + f8*g4_19 + f9_2*g3_19 + h3 := f0*g3 + f1*g2 + f2*g1 + f3*g0 + f4*g9_19 + f5*g8_19 + f6*g7_19 + f7*g6_19 + f8*g5_19 + f9*g4_19 + h4 := f0*g4 + f1_2*g3 + f2*g2 + f3_2*g1 + f4*g0 + f5_2*g9_19 + f6*g8_19 + f7_2*g7_19 + f8*g6_19 + f9_2*g5_19 + h5 := f0*g5 + f1*g4 + f2*g3 + f3*g2 + f4*g1 + f5*g0 + f6*g9_19 + f7*g8_19 + f8*g7_19 + f9*g6_19 + h6 := f0*g6 + f1_2*g5 + f2*g4 + f3_2*g3 + f4*g2 + f5_2*g1 + f6*g0 + f7_2*g9_19 + f8*g8_19 + f9_2*g7_19 + h7 := f0*g7 + f1*g6 + f2*g5 + f3*g4 + f4*g3 + f5*g2 + f6*g1 + f7*g0 + f8*g9_19 + f9*g8_19 + h8 := f0*g8 + f1_2*g7 + f2*g6 + f3_2*g5 + f4*g4 + f5_2*g3 + f6*g2 + f7_2*g1 + f8*g0 + f9_2*g9_19 + h9 := f0*g9 + f1*g8 + f2*g7 + f3*g6 + f4*g5 + f5*g4 + f6*g3 + f7*g2 + f8*g1 + f9*g0 + + FeCombine(h, h0, h1, h2, h3, h4, h5, h6, h7, h8, h9) +} + +func feSquare(f *FieldElement) (h0, h1, h2, h3, h4, h5, h6, h7, h8, h9 int64) { + f0 := int64(f[0]) + f1 := int64(f[1]) + f2 := int64(f[2]) + f3 := int64(f[3]) + f4 := int64(f[4]) + f5 := int64(f[5]) + f6 := int64(f[6]) + f7 := int64(f[7]) + f8 := int64(f[8]) + f9 := int64(f[9]) + f0_2 := int64(2 * f[0]) + f1_2 := int64(2 * f[1]) + f2_2 := int64(2 * f[2]) + f3_2 := int64(2 * f[3]) + f4_2 := int64(2 * f[4]) + f5_2 := int64(2 * f[5]) + f6_2 := int64(2 * f[6]) + f7_2 := int64(2 * f[7]) + f5_38 := 38 * f5 // 1.31*2^30 + f6_19 := 19 * f6 // 1.31*2^30 + f7_38 := 38 * f7 // 1.31*2^30 + f8_19 := 19 * f8 // 1.31*2^30 + f9_38 := 38 * f9 // 1.31*2^30 + + h0 = f0*f0 + f1_2*f9_38 + f2_2*f8_19 + f3_2*f7_38 + f4_2*f6_19 + f5*f5_38 + h1 = f0_2*f1 + f2*f9_38 + f3_2*f8_19 + f4*f7_38 + f5_2*f6_19 + h2 = f0_2*f2 + f1_2*f1 + f3_2*f9_38 + f4_2*f8_19 + f5_2*f7_38 + f6*f6_19 + h3 = f0_2*f3 + f1_2*f2 + f4*f9_38 + f5_2*f8_19 + f6*f7_38 + h4 = f0_2*f4 + f1_2*f3_2 + f2*f2 + f5_2*f9_38 + f6_2*f8_19 + f7*f7_38 + h5 = f0_2*f5 + f1_2*f4 + f2_2*f3 + f6*f9_38 + f7_2*f8_19 + h6 = f0_2*f6 + f1_2*f5_2 + f2_2*f4 + f3_2*f3 + f7_2*f9_38 + f8*f8_19 + h7 = f0_2*f7 + f1_2*f6 + f2_2*f5 + f3_2*f4 + f8*f9_38 + h8 = f0_2*f8 + f1_2*f7_2 + f2_2*f6 + f3_2*f5_2 + f4*f4 + f9*f9_38 + h9 = f0_2*f9 + f1_2*f8 + f2_2*f7 + f3_2*f6 + f4_2*f5 + + return +} + +// FeSquare calculates h = f*f. Can overlap h with f. +// +// Preconditions: +// |f| bounded by 1.1*2^26,1.1*2^25,1.1*2^26,1.1*2^25,etc. +// +// Postconditions: +// |h| bounded by 1.1*2^25,1.1*2^24,1.1*2^25,1.1*2^24,etc. +func FeSquare(h, f *FieldElement) { + h0, h1, h2, h3, h4, h5, h6, h7, h8, h9 := feSquare(f) + FeCombine(h, h0, h1, h2, h3, h4, h5, h6, h7, h8, h9) +} + +// FeSquare2 sets h = 2 * f * f +// +// Can overlap h with f. +// +// Preconditions: +// |f| bounded by 1.65*2^26,1.65*2^25,1.65*2^26,1.65*2^25,etc. +// +// Postconditions: +// |h| bounded by 1.01*2^25,1.01*2^24,1.01*2^25,1.01*2^24,etc. +// See fe_mul.c for discussion of implementation strategy. +func FeSquare2(h, f *FieldElement) { + h0, h1, h2, h3, h4, h5, h6, h7, h8, h9 := feSquare(f) + + h0 += h0 + h1 += h1 + h2 += h2 + h3 += h3 + h4 += h4 + h5 += h5 + h6 += h6 + h7 += h7 + h8 += h8 + h9 += h9 + + FeCombine(h, h0, h1, h2, h3, h4, h5, h6, h7, h8, h9) +} + +func FeInvert(out, z *FieldElement) { + var t0, t1, t2, t3 FieldElement + var i int + + FeSquare(&t0, z) // 2^1 + FeSquare(&t1, &t0) // 2^2 + for i = 1; i < 2; i++ { // 2^3 + FeSquare(&t1, &t1) + } + FeMul(&t1, z, &t1) // 2^3 + 2^0 + FeMul(&t0, &t0, &t1) // 2^3 + 2^1 + 2^0 + FeSquare(&t2, &t0) // 2^4 + 2^2 + 2^1 + FeMul(&t1, &t1, &t2) // 2^4 + 2^3 + 2^2 + 2^1 + 2^0 + FeSquare(&t2, &t1) // 5,4,3,2,1 + for i = 1; i < 5; i++ { // 9,8,7,6,5 + FeSquare(&t2, &t2) + } + FeMul(&t1, &t2, &t1) // 9,8,7,6,5,4,3,2,1,0 + FeSquare(&t2, &t1) // 10..1 + for i = 1; i < 10; i++ { // 19..10 + FeSquare(&t2, &t2) + } + FeMul(&t2, &t2, &t1) // 19..0 + FeSquare(&t3, &t2) // 20..1 + for i = 1; i < 20; i++ { // 39..20 + FeSquare(&t3, &t3) + } + FeMul(&t2, &t3, &t2) // 39..0 + FeSquare(&t2, &t2) // 40..1 + for i = 1; i < 10; i++ { // 49..10 + FeSquare(&t2, &t2) + } + FeMul(&t1, &t2, &t1) // 49..0 + FeSquare(&t2, &t1) // 50..1 + for i = 1; i < 50; i++ { // 99..50 + FeSquare(&t2, &t2) + } + FeMul(&t2, &t2, &t1) // 99..0 + FeSquare(&t3, &t2) // 100..1 + for i = 1; i < 100; i++ { // 199..100 + FeSquare(&t3, &t3) + } + FeMul(&t2, &t3, &t2) // 199..0 + FeSquare(&t2, &t2) // 200..1 + for i = 1; i < 50; i++ { // 249..50 + FeSquare(&t2, &t2) + } + FeMul(&t1, &t2, &t1) // 249..0 + FeSquare(&t1, &t1) // 250..1 + for i = 1; i < 5; i++ { // 254..5 + FeSquare(&t1, &t1) + } + FeMul(out, &t1, &t0) // 254..5,3,1,0 +} + +func fePow22523(out, z *FieldElement) { + var t0, t1, t2 FieldElement + var i int + + FeSquare(&t0, z) + for i = 1; i < 1; i++ { + FeSquare(&t0, &t0) + } + FeSquare(&t1, &t0) + for i = 1; i < 2; i++ { + FeSquare(&t1, &t1) + } + FeMul(&t1, z, &t1) + FeMul(&t0, &t0, &t1) + FeSquare(&t0, &t0) + for i = 1; i < 1; i++ { + FeSquare(&t0, &t0) + } + FeMul(&t0, &t1, &t0) + FeSquare(&t1, &t0) + for i = 1; i < 5; i++ { + FeSquare(&t1, &t1) + } + FeMul(&t0, &t1, &t0) + FeSquare(&t1, &t0) + for i = 1; i < 10; i++ { + FeSquare(&t1, &t1) + } + FeMul(&t1, &t1, &t0) + FeSquare(&t2, &t1) + for i = 1; i < 20; i++ { + FeSquare(&t2, &t2) + } + FeMul(&t1, &t2, &t1) + FeSquare(&t1, &t1) + for i = 1; i < 10; i++ { + FeSquare(&t1, &t1) + } + FeMul(&t0, &t1, &t0) + FeSquare(&t1, &t0) + for i = 1; i < 50; i++ { + FeSquare(&t1, &t1) + } + FeMul(&t1, &t1, &t0) + FeSquare(&t2, &t1) + for i = 1; i < 100; i++ { + FeSquare(&t2, &t2) + } + FeMul(&t1, &t2, &t1) + FeSquare(&t1, &t1) + for i = 1; i < 50; i++ { + FeSquare(&t1, &t1) + } + FeMul(&t0, &t1, &t0) + FeSquare(&t0, &t0) + for i = 1; i < 2; i++ { + FeSquare(&t0, &t0) + } + FeMul(out, &t0, z) +} + +// Group elements are members of the elliptic curve -x^2 + y^2 = 1 + d * x^2 * +// y^2 where d = -121665/121666. +// +// Several representations are used: +// ProjectiveGroupElement: (X:Y:Z) satisfying x=X/Z, y=Y/Z +// ExtendedGroupElement: (X:Y:Z:T) satisfying x=X/Z, y=Y/Z, XY=ZT +// CompletedGroupElement: ((X:Z),(Y:T)) satisfying x=X/Z, y=Y/T +// PreComputedGroupElement: (y+x,y-x,2dxy) + +type ProjectiveGroupElement struct { + X, Y, Z FieldElement +} + +type ExtendedGroupElement struct { + X, Y, Z, T FieldElement +} + +type CompletedGroupElement struct { + X, Y, Z, T FieldElement +} + +type PreComputedGroupElement struct { + yPlusX, yMinusX, xy2d FieldElement +} + +type CachedGroupElement struct { + yPlusX, yMinusX, Z, T2d FieldElement +} + +func (p *ProjectiveGroupElement) Zero() { + FeZero(&p.X) + FeOne(&p.Y) + FeOne(&p.Z) +} + +func (p *ProjectiveGroupElement) Double(r *CompletedGroupElement) { + var t0 FieldElement + + FeSquare(&r.X, &p.X) + FeSquare(&r.Z, &p.Y) + FeSquare2(&r.T, &p.Z) + FeAdd(&r.Y, &p.X, &p.Y) + FeSquare(&t0, &r.Y) + FeAdd(&r.Y, &r.Z, &r.X) + FeSub(&r.Z, &r.Z, &r.X) + FeSub(&r.X, &t0, &r.Y) + FeSub(&r.T, &r.T, &r.Z) +} + +func (p *ProjectiveGroupElement) ToBytes(s *[32]byte) { + var recip, x, y FieldElement + + FeInvert(&recip, &p.Z) + FeMul(&x, &p.X, &recip) + FeMul(&y, &p.Y, &recip) + FeToBytes(s, &y) + s[31] ^= FeIsNegative(&x) << 7 +} + +func (p *ExtendedGroupElement) Zero() { + FeZero(&p.X) + FeOne(&p.Y) + FeOne(&p.Z) + FeZero(&p.T) +} + +func (p *ExtendedGroupElement) Double(r *CompletedGroupElement) { + var q ProjectiveGroupElement + p.ToProjective(&q) + q.Double(r) +} + +func (p *ExtendedGroupElement) ToCached(r *CachedGroupElement) { + FeAdd(&r.yPlusX, &p.Y, &p.X) + FeSub(&r.yMinusX, &p.Y, &p.X) + FeCopy(&r.Z, &p.Z) + FeMul(&r.T2d, &p.T, &d2) +} + +func (p *ExtendedGroupElement) ToProjective(r *ProjectiveGroupElement) { + FeCopy(&r.X, &p.X) + FeCopy(&r.Y, &p.Y) + FeCopy(&r.Z, &p.Z) +} + +func (p *ExtendedGroupElement) ToBytes(s *[32]byte) { + var recip, x, y FieldElement + + FeInvert(&recip, &p.Z) + FeMul(&x, &p.X, &recip) + FeMul(&y, &p.Y, &recip) + FeToBytes(s, &y) + s[31] ^= FeIsNegative(&x) << 7 +} + +func (p *ExtendedGroupElement) FromBytes(s *[32]byte) bool { + var u, v, v3, vxx, check FieldElement + + FeFromBytes(&p.Y, s) + FeOne(&p.Z) + FeSquare(&u, &p.Y) + FeMul(&v, &u, &d) + FeSub(&u, &u, &p.Z) // y = y^2-1 + FeAdd(&v, &v, &p.Z) // v = dy^2+1 + + FeSquare(&v3, &v) + FeMul(&v3, &v3, &v) // v3 = v^3 + FeSquare(&p.X, &v3) + FeMul(&p.X, &p.X, &v) + FeMul(&p.X, &p.X, &u) // x = uv^7 + + fePow22523(&p.X, &p.X) // x = (uv^7)^((q-5)/8) + FeMul(&p.X, &p.X, &v3) + FeMul(&p.X, &p.X, &u) // x = uv^3(uv^7)^((q-5)/8) + + var tmpX, tmp2 [32]byte + + FeSquare(&vxx, &p.X) + FeMul(&vxx, &vxx, &v) + FeSub(&check, &vxx, &u) // vx^2-u + if FeIsNonZero(&check) == 1 { + FeAdd(&check, &vxx, &u) // vx^2+u + if FeIsNonZero(&check) == 1 { + return false + } + FeMul(&p.X, &p.X, &SqrtM1) + + FeToBytes(&tmpX, &p.X) + for i, v := range tmpX { + tmp2[31-i] = v + } + } + + if FeIsNegative(&p.X) != (s[31] >> 7) { + FeNeg(&p.X, &p.X) + } + + FeMul(&p.T, &p.X, &p.Y) + return true +} + +func (p *CompletedGroupElement) ToProjective(r *ProjectiveGroupElement) { + FeMul(&r.X, &p.X, &p.T) + FeMul(&r.Y, &p.Y, &p.Z) + FeMul(&r.Z, &p.Z, &p.T) +} + +func (p *CompletedGroupElement) ToExtended(r *ExtendedGroupElement) { + FeMul(&r.X, &p.X, &p.T) + FeMul(&r.Y, &p.Y, &p.Z) + FeMul(&r.Z, &p.Z, &p.T) + FeMul(&r.T, &p.X, &p.Y) +} + +func (p *PreComputedGroupElement) Zero() { + FeOne(&p.yPlusX) + FeOne(&p.yMinusX) + FeZero(&p.xy2d) +} + +func geAdd(r *CompletedGroupElement, p *ExtendedGroupElement, q *CachedGroupElement) { + var t0 FieldElement + + FeAdd(&r.X, &p.Y, &p.X) + FeSub(&r.Y, &p.Y, &p.X) + FeMul(&r.Z, &r.X, &q.yPlusX) + FeMul(&r.Y, &r.Y, &q.yMinusX) + FeMul(&r.T, &q.T2d, &p.T) + FeMul(&r.X, &p.Z, &q.Z) + FeAdd(&t0, &r.X, &r.X) + FeSub(&r.X, &r.Z, &r.Y) + FeAdd(&r.Y, &r.Z, &r.Y) + FeAdd(&r.Z, &t0, &r.T) + FeSub(&r.T, &t0, &r.T) +} + +func geSub(r *CompletedGroupElement, p *ExtendedGroupElement, q *CachedGroupElement) { + var t0 FieldElement + + FeAdd(&r.X, &p.Y, &p.X) + FeSub(&r.Y, &p.Y, &p.X) + FeMul(&r.Z, &r.X, &q.yMinusX) + FeMul(&r.Y, &r.Y, &q.yPlusX) + FeMul(&r.T, &q.T2d, &p.T) + FeMul(&r.X, &p.Z, &q.Z) + FeAdd(&t0, &r.X, &r.X) + FeSub(&r.X, &r.Z, &r.Y) + FeAdd(&r.Y, &r.Z, &r.Y) + FeSub(&r.Z, &t0, &r.T) + FeAdd(&r.T, &t0, &r.T) +} + +func geMixedAdd(r *CompletedGroupElement, p *ExtendedGroupElement, q *PreComputedGroupElement) { + var t0 FieldElement + + FeAdd(&r.X, &p.Y, &p.X) + FeSub(&r.Y, &p.Y, &p.X) + FeMul(&r.Z, &r.X, &q.yPlusX) + FeMul(&r.Y, &r.Y, &q.yMinusX) + FeMul(&r.T, &q.xy2d, &p.T) + FeAdd(&t0, &p.Z, &p.Z) + FeSub(&r.X, &r.Z, &r.Y) + FeAdd(&r.Y, &r.Z, &r.Y) + FeAdd(&r.Z, &t0, &r.T) + FeSub(&r.T, &t0, &r.T) +} + +func geMixedSub(r *CompletedGroupElement, p *ExtendedGroupElement, q *PreComputedGroupElement) { + var t0 FieldElement + + FeAdd(&r.X, &p.Y, &p.X) + FeSub(&r.Y, &p.Y, &p.X) + FeMul(&r.Z, &r.X, &q.yMinusX) + FeMul(&r.Y, &r.Y, &q.yPlusX) + FeMul(&r.T, &q.xy2d, &p.T) + FeAdd(&t0, &p.Z, &p.Z) + FeSub(&r.X, &r.Z, &r.Y) + FeAdd(&r.Y, &r.Z, &r.Y) + FeSub(&r.Z, &t0, &r.T) + FeAdd(&r.T, &t0, &r.T) +} + +func slide(r *[256]int8, a *[32]byte) { + for i := range r { + r[i] = int8(1 & (a[i>>3] >> uint(i&7))) + } + + for i := range r { + if r[i] != 0 { + for b := 1; b <= 6 && i+b < 256; b++ { + if r[i+b] != 0 { + if r[i]+(r[i+b]<= -15 { + r[i] -= r[i+b] << uint(b) + for k := i + b; k < 256; k++ { + if r[k] == 0 { + r[k] = 1 + break + } + r[k] = 0 + } + } else { + break + } + } + } + } + } +} + +// GeDoubleScalarMultVartime sets r = a*A + b*B +// where a = a[0]+256*a[1]+...+256^31 a[31]. +// and b = b[0]+256*b[1]+...+256^31 b[31]. +// B is the Ed25519 base point (x,4/5) with x positive. +func GeDoubleScalarMultVartime(r *ProjectiveGroupElement, a *[32]byte, A *ExtendedGroupElement, b *[32]byte) { + var aSlide, bSlide [256]int8 + var Ai [8]CachedGroupElement // A,3A,5A,7A,9A,11A,13A,15A + var t CompletedGroupElement + var u, A2 ExtendedGroupElement + var i int + + slide(&aSlide, a) + slide(&bSlide, b) + + A.ToCached(&Ai[0]) + A.Double(&t) + t.ToExtended(&A2) + + for i := 0; i < 7; i++ { + geAdd(&t, &A2, &Ai[i]) + t.ToExtended(&u) + u.ToCached(&Ai[i+1]) + } + + r.Zero() + + for i = 255; i >= 0; i-- { + if aSlide[i] != 0 || bSlide[i] != 0 { + break + } + } + + for ; i >= 0; i-- { + r.Double(&t) + + if aSlide[i] > 0 { + t.ToExtended(&u) + geAdd(&t, &u, &Ai[aSlide[i]/2]) + } else if aSlide[i] < 0 { + t.ToExtended(&u) + geSub(&t, &u, &Ai[(-aSlide[i])/2]) + } + + if bSlide[i] > 0 { + t.ToExtended(&u) + geMixedAdd(&t, &u, &bi[bSlide[i]/2]) + } else if bSlide[i] < 0 { + t.ToExtended(&u) + geMixedSub(&t, &u, &bi[(-bSlide[i])/2]) + } + + t.ToProjective(r) + } +} + +// equal returns 1 if b == c and 0 otherwise, assuming that b and c are +// non-negative. +func equal(b, c int32) int32 { + x := uint32(b ^ c) + x-- + return int32(x >> 31) +} + +// negative returns 1 if b < 0 and 0 otherwise. +func negative(b int32) int32 { + return (b >> 31) & 1 +} + +func PreComputedGroupElementCMove(t, u *PreComputedGroupElement, b int32) { + FeCMove(&t.yPlusX, &u.yPlusX, b) + FeCMove(&t.yMinusX, &u.yMinusX, b) + FeCMove(&t.xy2d, &u.xy2d, b) +} + +func selectPoint(t *PreComputedGroupElement, pos int32, b int32) { + var minusT PreComputedGroupElement + bNegative := negative(b) + bAbs := b - (((-bNegative) & b) << 1) + + t.Zero() + for i := int32(0); i < 8; i++ { + PreComputedGroupElementCMove(t, &base[pos][i], equal(bAbs, i+1)) + } + FeCopy(&minusT.yPlusX, &t.yMinusX) + FeCopy(&minusT.yMinusX, &t.yPlusX) + FeNeg(&minusT.xy2d, &t.xy2d) + PreComputedGroupElementCMove(t, &minusT, bNegative) +} + +// GeScalarMultBase computes h = a*B, where +// a = a[0]+256*a[1]+...+256^31 a[31] +// B is the Ed25519 base point (x,4/5) with x positive. +// +// Preconditions: +// a[31] <= 127 +func GeScalarMultBase(h *ExtendedGroupElement, a *[32]byte) { + var e [64]int8 + + for i, v := range a { + e[2*i] = int8(v & 15) + e[2*i+1] = int8((v >> 4) & 15) + } + + // each e[i] is between 0 and 15 and e[63] is between 0 and 7. + + carry := int8(0) + for i := 0; i < 63; i++ { + e[i] += carry + carry = (e[i] + 8) >> 4 + e[i] -= carry << 4 + } + e[63] += carry + // each e[i] is between -8 and 8. + + h.Zero() + var t PreComputedGroupElement + var r CompletedGroupElement + for i := int32(1); i < 64; i += 2 { + selectPoint(&t, i/2, int32(e[i])) + geMixedAdd(&r, h, &t) + r.ToExtended(h) + } + + var s ProjectiveGroupElement + + h.Double(&r) + r.ToProjective(&s) + s.Double(&r) + r.ToProjective(&s) + s.Double(&r) + r.ToProjective(&s) + s.Double(&r) + r.ToExtended(h) + + for i := int32(0); i < 64; i += 2 { + selectPoint(&t, i/2, int32(e[i])) + geMixedAdd(&r, h, &t) + r.ToExtended(h) + } +} + +// The scalars are GF(2^252 + 27742317777372353535851937790883648493). + +// Input: +// a[0]+256*a[1]+...+256^31*a[31] = a +// b[0]+256*b[1]+...+256^31*b[31] = b +// c[0]+256*c[1]+...+256^31*c[31] = c +// +// Output: +// s[0]+256*s[1]+...+256^31*s[31] = (ab+c) mod l +// where l = 2^252 + 27742317777372353535851937790883648493. +func ScMulAdd(s, a, b, c *[32]byte) { + a0 := 2097151 & load3(a[:]) + a1 := 2097151 & (load4(a[2:]) >> 5) + a2 := 2097151 & (load3(a[5:]) >> 2) + a3 := 2097151 & (load4(a[7:]) >> 7) + a4 := 2097151 & (load4(a[10:]) >> 4) + a5 := 2097151 & (load3(a[13:]) >> 1) + a6 := 2097151 & (load4(a[15:]) >> 6) + a7 := 2097151 & (load3(a[18:]) >> 3) + a8 := 2097151 & load3(a[21:]) + a9 := 2097151 & (load4(a[23:]) >> 5) + a10 := 2097151 & (load3(a[26:]) >> 2) + a11 := (load4(a[28:]) >> 7) + b0 := 2097151 & load3(b[:]) + b1 := 2097151 & (load4(b[2:]) >> 5) + b2 := 2097151 & (load3(b[5:]) >> 2) + b3 := 2097151 & (load4(b[7:]) >> 7) + b4 := 2097151 & (load4(b[10:]) >> 4) + b5 := 2097151 & (load3(b[13:]) >> 1) + b6 := 2097151 & (load4(b[15:]) >> 6) + b7 := 2097151 & (load3(b[18:]) >> 3) + b8 := 2097151 & load3(b[21:]) + b9 := 2097151 & (load4(b[23:]) >> 5) + b10 := 2097151 & (load3(b[26:]) >> 2) + b11 := (load4(b[28:]) >> 7) + c0 := 2097151 & load3(c[:]) + c1 := 2097151 & (load4(c[2:]) >> 5) + c2 := 2097151 & (load3(c[5:]) >> 2) + c3 := 2097151 & (load4(c[7:]) >> 7) + c4 := 2097151 & (load4(c[10:]) >> 4) + c5 := 2097151 & (load3(c[13:]) >> 1) + c6 := 2097151 & (load4(c[15:]) >> 6) + c7 := 2097151 & (load3(c[18:]) >> 3) + c8 := 2097151 & load3(c[21:]) + c9 := 2097151 & (load4(c[23:]) >> 5) + c10 := 2097151 & (load3(c[26:]) >> 2) + c11 := (load4(c[28:]) >> 7) + var carry [23]int64 + + s0 := c0 + a0*b0 + s1 := c1 + a0*b1 + a1*b0 + s2 := c2 + a0*b2 + a1*b1 + a2*b0 + s3 := c3 + a0*b3 + a1*b2 + a2*b1 + a3*b0 + s4 := c4 + a0*b4 + a1*b3 + a2*b2 + a3*b1 + a4*b0 + s5 := c5 + a0*b5 + a1*b4 + a2*b3 + a3*b2 + a4*b1 + a5*b0 + s6 := c6 + a0*b6 + a1*b5 + a2*b4 + a3*b3 + a4*b2 + a5*b1 + a6*b0 + s7 := c7 + a0*b7 + a1*b6 + a2*b5 + a3*b4 + a4*b3 + a5*b2 + a6*b1 + a7*b0 + s8 := c8 + a0*b8 + a1*b7 + a2*b6 + a3*b5 + a4*b4 + a5*b3 + a6*b2 + a7*b1 + a8*b0 + s9 := c9 + a0*b9 + a1*b8 + a2*b7 + a3*b6 + a4*b5 + a5*b4 + a6*b3 + a7*b2 + a8*b1 + a9*b0 + s10 := c10 + a0*b10 + a1*b9 + a2*b8 + a3*b7 + a4*b6 + a5*b5 + a6*b4 + a7*b3 + a8*b2 + a9*b1 + a10*b0 + s11 := c11 + a0*b11 + a1*b10 + a2*b9 + a3*b8 + a4*b7 + a5*b6 + a6*b5 + a7*b4 + a8*b3 + a9*b2 + a10*b1 + a11*b0 + s12 := a1*b11 + a2*b10 + a3*b9 + a4*b8 + a5*b7 + a6*b6 + a7*b5 + a8*b4 + a9*b3 + a10*b2 + a11*b1 + s13 := a2*b11 + a3*b10 + a4*b9 + a5*b8 + a6*b7 + a7*b6 + a8*b5 + a9*b4 + a10*b3 + a11*b2 + s14 := a3*b11 + a4*b10 + a5*b9 + a6*b8 + a7*b7 + a8*b6 + a9*b5 + a10*b4 + a11*b3 + s15 := a4*b11 + a5*b10 + a6*b9 + a7*b8 + a8*b7 + a9*b6 + a10*b5 + a11*b4 + s16 := a5*b11 + a6*b10 + a7*b9 + a8*b8 + a9*b7 + a10*b6 + a11*b5 + s17 := a6*b11 + a7*b10 + a8*b9 + a9*b8 + a10*b7 + a11*b6 + s18 := a7*b11 + a8*b10 + a9*b9 + a10*b8 + a11*b7 + s19 := a8*b11 + a9*b10 + a10*b9 + a11*b8 + s20 := a9*b11 + a10*b10 + a11*b9 + s21 := a10*b11 + a11*b10 + s22 := a11 * b11 + s23 := int64(0) + + carry[0] = (s0 + (1 << 20)) >> 21 + s1 += carry[0] + s0 -= carry[0] << 21 + carry[2] = (s2 + (1 << 20)) >> 21 + s3 += carry[2] + s2 -= carry[2] << 21 + carry[4] = (s4 + (1 << 20)) >> 21 + s5 += carry[4] + s4 -= carry[4] << 21 + carry[6] = (s6 + (1 << 20)) >> 21 + s7 += carry[6] + s6 -= carry[6] << 21 + carry[8] = (s8 + (1 << 20)) >> 21 + s9 += carry[8] + s8 -= carry[8] << 21 + carry[10] = (s10 + (1 << 20)) >> 21 + s11 += carry[10] + s10 -= carry[10] << 21 + carry[12] = (s12 + (1 << 20)) >> 21 + s13 += carry[12] + s12 -= carry[12] << 21 + carry[14] = (s14 + (1 << 20)) >> 21 + s15 += carry[14] + s14 -= carry[14] << 21 + carry[16] = (s16 + (1 << 20)) >> 21 + s17 += carry[16] + s16 -= carry[16] << 21 + carry[18] = (s18 + (1 << 20)) >> 21 + s19 += carry[18] + s18 -= carry[18] << 21 + carry[20] = (s20 + (1 << 20)) >> 21 + s21 += carry[20] + s20 -= carry[20] << 21 + carry[22] = (s22 + (1 << 20)) >> 21 + s23 += carry[22] + s22 -= carry[22] << 21 + + carry[1] = (s1 + (1 << 20)) >> 21 + s2 += carry[1] + s1 -= carry[1] << 21 + carry[3] = (s3 + (1 << 20)) >> 21 + s4 += carry[3] + s3 -= carry[3] << 21 + carry[5] = (s5 + (1 << 20)) >> 21 + s6 += carry[5] + s5 -= carry[5] << 21 + carry[7] = (s7 + (1 << 20)) >> 21 + s8 += carry[7] + s7 -= carry[7] << 21 + carry[9] = (s9 + (1 << 20)) >> 21 + s10 += carry[9] + s9 -= carry[9] << 21 + carry[11] = (s11 + (1 << 20)) >> 21 + s12 += carry[11] + s11 -= carry[11] << 21 + carry[13] = (s13 + (1 << 20)) >> 21 + s14 += carry[13] + s13 -= carry[13] << 21 + carry[15] = (s15 + (1 << 20)) >> 21 + s16 += carry[15] + s15 -= carry[15] << 21 + carry[17] = (s17 + (1 << 20)) >> 21 + s18 += carry[17] + s17 -= carry[17] << 21 + carry[19] = (s19 + (1 << 20)) >> 21 + s20 += carry[19] + s19 -= carry[19] << 21 + carry[21] = (s21 + (1 << 20)) >> 21 + s22 += carry[21] + s21 -= carry[21] << 21 + + s11 += s23 * 666643 + s12 += s23 * 470296 + s13 += s23 * 654183 + s14 -= s23 * 997805 + s15 += s23 * 136657 + s16 -= s23 * 683901 + s23 = 0 + + s10 += s22 * 666643 + s11 += s22 * 470296 + s12 += s22 * 654183 + s13 -= s22 * 997805 + s14 += s22 * 136657 + s15 -= s22 * 683901 + s22 = 0 + + s9 += s21 * 666643 + s10 += s21 * 470296 + s11 += s21 * 654183 + s12 -= s21 * 997805 + s13 += s21 * 136657 + s14 -= s21 * 683901 + s21 = 0 + + s8 += s20 * 666643 + s9 += s20 * 470296 + s10 += s20 * 654183 + s11 -= s20 * 997805 + s12 += s20 * 136657 + s13 -= s20 * 683901 + s20 = 0 + + s7 += s19 * 666643 + s8 += s19 * 470296 + s9 += s19 * 654183 + s10 -= s19 * 997805 + s11 += s19 * 136657 + s12 -= s19 * 683901 + s19 = 0 + + s6 += s18 * 666643 + s7 += s18 * 470296 + s8 += s18 * 654183 + s9 -= s18 * 997805 + s10 += s18 * 136657 + s11 -= s18 * 683901 + s18 = 0 + + carry[6] = (s6 + (1 << 20)) >> 21 + s7 += carry[6] + s6 -= carry[6] << 21 + carry[8] = (s8 + (1 << 20)) >> 21 + s9 += carry[8] + s8 -= carry[8] << 21 + carry[10] = (s10 + (1 << 20)) >> 21 + s11 += carry[10] + s10 -= carry[10] << 21 + carry[12] = (s12 + (1 << 20)) >> 21 + s13 += carry[12] + s12 -= carry[12] << 21 + carry[14] = (s14 + (1 << 20)) >> 21 + s15 += carry[14] + s14 -= carry[14] << 21 + carry[16] = (s16 + (1 << 20)) >> 21 + s17 += carry[16] + s16 -= carry[16] << 21 + + carry[7] = (s7 + (1 << 20)) >> 21 + s8 += carry[7] + s7 -= carry[7] << 21 + carry[9] = (s9 + (1 << 20)) >> 21 + s10 += carry[9] + s9 -= carry[9] << 21 + carry[11] = (s11 + (1 << 20)) >> 21 + s12 += carry[11] + s11 -= carry[11] << 21 + carry[13] = (s13 + (1 << 20)) >> 21 + s14 += carry[13] + s13 -= carry[13] << 21 + carry[15] = (s15 + (1 << 20)) >> 21 + s16 += carry[15] + s15 -= carry[15] << 21 + + s5 += s17 * 666643 + s6 += s17 * 470296 + s7 += s17 * 654183 + s8 -= s17 * 997805 + s9 += s17 * 136657 + s10 -= s17 * 683901 + s17 = 0 + + s4 += s16 * 666643 + s5 += s16 * 470296 + s6 += s16 * 654183 + s7 -= s16 * 997805 + s8 += s16 * 136657 + s9 -= s16 * 683901 + s16 = 0 + + s3 += s15 * 666643 + s4 += s15 * 470296 + s5 += s15 * 654183 + s6 -= s15 * 997805 + s7 += s15 * 136657 + s8 -= s15 * 683901 + s15 = 0 + + s2 += s14 * 666643 + s3 += s14 * 470296 + s4 += s14 * 654183 + s5 -= s14 * 997805 + s6 += s14 * 136657 + s7 -= s14 * 683901 + s14 = 0 + + s1 += s13 * 666643 + s2 += s13 * 470296 + s3 += s13 * 654183 + s4 -= s13 * 997805 + s5 += s13 * 136657 + s6 -= s13 * 683901 + s13 = 0 + + s0 += s12 * 666643 + s1 += s12 * 470296 + s2 += s12 * 654183 + s3 -= s12 * 997805 + s4 += s12 * 136657 + s5 -= s12 * 683901 + s12 = 0 + + carry[0] = (s0 + (1 << 20)) >> 21 + s1 += carry[0] + s0 -= carry[0] << 21 + carry[2] = (s2 + (1 << 20)) >> 21 + s3 += carry[2] + s2 -= carry[2] << 21 + carry[4] = (s4 + (1 << 20)) >> 21 + s5 += carry[4] + s4 -= carry[4] << 21 + carry[6] = (s6 + (1 << 20)) >> 21 + s7 += carry[6] + s6 -= carry[6] << 21 + carry[8] = (s8 + (1 << 20)) >> 21 + s9 += carry[8] + s8 -= carry[8] << 21 + carry[10] = (s10 + (1 << 20)) >> 21 + s11 += carry[10] + s10 -= carry[10] << 21 + + carry[1] = (s1 + (1 << 20)) >> 21 + s2 += carry[1] + s1 -= carry[1] << 21 + carry[3] = (s3 + (1 << 20)) >> 21 + s4 += carry[3] + s3 -= carry[3] << 21 + carry[5] = (s5 + (1 << 20)) >> 21 + s6 += carry[5] + s5 -= carry[5] << 21 + carry[7] = (s7 + (1 << 20)) >> 21 + s8 += carry[7] + s7 -= carry[7] << 21 + carry[9] = (s9 + (1 << 20)) >> 21 + s10 += carry[9] + s9 -= carry[9] << 21 + carry[11] = (s11 + (1 << 20)) >> 21 + s12 += carry[11] + s11 -= carry[11] << 21 + + s0 += s12 * 666643 + s1 += s12 * 470296 + s2 += s12 * 654183 + s3 -= s12 * 997805 + s4 += s12 * 136657 + s5 -= s12 * 683901 + s12 = 0 + + carry[0] = s0 >> 21 + s1 += carry[0] + s0 -= carry[0] << 21 + carry[1] = s1 >> 21 + s2 += carry[1] + s1 -= carry[1] << 21 + carry[2] = s2 >> 21 + s3 += carry[2] + s2 -= carry[2] << 21 + carry[3] = s3 >> 21 + s4 += carry[3] + s3 -= carry[3] << 21 + carry[4] = s4 >> 21 + s5 += carry[4] + s4 -= carry[4] << 21 + carry[5] = s5 >> 21 + s6 += carry[5] + s5 -= carry[5] << 21 + carry[6] = s6 >> 21 + s7 += carry[6] + s6 -= carry[6] << 21 + carry[7] = s7 >> 21 + s8 += carry[7] + s7 -= carry[7] << 21 + carry[8] = s8 >> 21 + s9 += carry[8] + s8 -= carry[8] << 21 + carry[9] = s9 >> 21 + s10 += carry[9] + s9 -= carry[9] << 21 + carry[10] = s10 >> 21 + s11 += carry[10] + s10 -= carry[10] << 21 + carry[11] = s11 >> 21 + s12 += carry[11] + s11 -= carry[11] << 21 + + s0 += s12 * 666643 + s1 += s12 * 470296 + s2 += s12 * 654183 + s3 -= s12 * 997805 + s4 += s12 * 136657 + s5 -= s12 * 683901 + s12 = 0 + + carry[0] = s0 >> 21 + s1 += carry[0] + s0 -= carry[0] << 21 + carry[1] = s1 >> 21 + s2 += carry[1] + s1 -= carry[1] << 21 + carry[2] = s2 >> 21 + s3 += carry[2] + s2 -= carry[2] << 21 + carry[3] = s3 >> 21 + s4 += carry[3] + s3 -= carry[3] << 21 + carry[4] = s4 >> 21 + s5 += carry[4] + s4 -= carry[4] << 21 + carry[5] = s5 >> 21 + s6 += carry[5] + s5 -= carry[5] << 21 + carry[6] = s6 >> 21 + s7 += carry[6] + s6 -= carry[6] << 21 + carry[7] = s7 >> 21 + s8 += carry[7] + s7 -= carry[7] << 21 + carry[8] = s8 >> 21 + s9 += carry[8] + s8 -= carry[8] << 21 + carry[9] = s9 >> 21 + s10 += carry[9] + s9 -= carry[9] << 21 + carry[10] = s10 >> 21 + s11 += carry[10] + s10 -= carry[10] << 21 + + s[0] = byte(s0 >> 0) + s[1] = byte(s0 >> 8) + s[2] = byte((s0 >> 16) | (s1 << 5)) + s[3] = byte(s1 >> 3) + s[4] = byte(s1 >> 11) + s[5] = byte((s1 >> 19) | (s2 << 2)) + s[6] = byte(s2 >> 6) + s[7] = byte((s2 >> 14) | (s3 << 7)) + s[8] = byte(s3 >> 1) + s[9] = byte(s3 >> 9) + s[10] = byte((s3 >> 17) | (s4 << 4)) + s[11] = byte(s4 >> 4) + s[12] = byte(s4 >> 12) + s[13] = byte((s4 >> 20) | (s5 << 1)) + s[14] = byte(s5 >> 7) + s[15] = byte((s5 >> 15) | (s6 << 6)) + s[16] = byte(s6 >> 2) + s[17] = byte(s6 >> 10) + s[18] = byte((s6 >> 18) | (s7 << 3)) + s[19] = byte(s7 >> 5) + s[20] = byte(s7 >> 13) + s[21] = byte(s8 >> 0) + s[22] = byte(s8 >> 8) + s[23] = byte((s8 >> 16) | (s9 << 5)) + s[24] = byte(s9 >> 3) + s[25] = byte(s9 >> 11) + s[26] = byte((s9 >> 19) | (s10 << 2)) + s[27] = byte(s10 >> 6) + s[28] = byte((s10 >> 14) | (s11 << 7)) + s[29] = byte(s11 >> 1) + s[30] = byte(s11 >> 9) + s[31] = byte(s11 >> 17) +} + +// Input: +// s[0]+256*s[1]+...+256^63*s[63] = s +// +// Output: +// s[0]+256*s[1]+...+256^31*s[31] = s mod l +// where l = 2^252 + 27742317777372353535851937790883648493. +func ScReduce(out *[32]byte, s *[64]byte) { + s0 := 2097151 & load3(s[:]) + s1 := 2097151 & (load4(s[2:]) >> 5) + s2 := 2097151 & (load3(s[5:]) >> 2) + s3 := 2097151 & (load4(s[7:]) >> 7) + s4 := 2097151 & (load4(s[10:]) >> 4) + s5 := 2097151 & (load3(s[13:]) >> 1) + s6 := 2097151 & (load4(s[15:]) >> 6) + s7 := 2097151 & (load3(s[18:]) >> 3) + s8 := 2097151 & load3(s[21:]) + s9 := 2097151 & (load4(s[23:]) >> 5) + s10 := 2097151 & (load3(s[26:]) >> 2) + s11 := 2097151 & (load4(s[28:]) >> 7) + s12 := 2097151 & (load4(s[31:]) >> 4) + s13 := 2097151 & (load3(s[34:]) >> 1) + s14 := 2097151 & (load4(s[36:]) >> 6) + s15 := 2097151 & (load3(s[39:]) >> 3) + s16 := 2097151 & load3(s[42:]) + s17 := 2097151 & (load4(s[44:]) >> 5) + s18 := 2097151 & (load3(s[47:]) >> 2) + s19 := 2097151 & (load4(s[49:]) >> 7) + s20 := 2097151 & (load4(s[52:]) >> 4) + s21 := 2097151 & (load3(s[55:]) >> 1) + s22 := 2097151 & (load4(s[57:]) >> 6) + s23 := (load4(s[60:]) >> 3) + + s11 += s23 * 666643 + s12 += s23 * 470296 + s13 += s23 * 654183 + s14 -= s23 * 997805 + s15 += s23 * 136657 + s16 -= s23 * 683901 + s23 = 0 + + s10 += s22 * 666643 + s11 += s22 * 470296 + s12 += s22 * 654183 + s13 -= s22 * 997805 + s14 += s22 * 136657 + s15 -= s22 * 683901 + s22 = 0 + + s9 += s21 * 666643 + s10 += s21 * 470296 + s11 += s21 * 654183 + s12 -= s21 * 997805 + s13 += s21 * 136657 + s14 -= s21 * 683901 + s21 = 0 + + s8 += s20 * 666643 + s9 += s20 * 470296 + s10 += s20 * 654183 + s11 -= s20 * 997805 + s12 += s20 * 136657 + s13 -= s20 * 683901 + s20 = 0 + + s7 += s19 * 666643 + s8 += s19 * 470296 + s9 += s19 * 654183 + s10 -= s19 * 997805 + s11 += s19 * 136657 + s12 -= s19 * 683901 + s19 = 0 + + s6 += s18 * 666643 + s7 += s18 * 470296 + s8 += s18 * 654183 + s9 -= s18 * 997805 + s10 += s18 * 136657 + s11 -= s18 * 683901 + s18 = 0 + + var carry [17]int64 + + carry[6] = (s6 + (1 << 20)) >> 21 + s7 += carry[6] + s6 -= carry[6] << 21 + carry[8] = (s8 + (1 << 20)) >> 21 + s9 += carry[8] + s8 -= carry[8] << 21 + carry[10] = (s10 + (1 << 20)) >> 21 + s11 += carry[10] + s10 -= carry[10] << 21 + carry[12] = (s12 + (1 << 20)) >> 21 + s13 += carry[12] + s12 -= carry[12] << 21 + carry[14] = (s14 + (1 << 20)) >> 21 + s15 += carry[14] + s14 -= carry[14] << 21 + carry[16] = (s16 + (1 << 20)) >> 21 + s17 += carry[16] + s16 -= carry[16] << 21 + + carry[7] = (s7 + (1 << 20)) >> 21 + s8 += carry[7] + s7 -= carry[7] << 21 + carry[9] = (s9 + (1 << 20)) >> 21 + s10 += carry[9] + s9 -= carry[9] << 21 + carry[11] = (s11 + (1 << 20)) >> 21 + s12 += carry[11] + s11 -= carry[11] << 21 + carry[13] = (s13 + (1 << 20)) >> 21 + s14 += carry[13] + s13 -= carry[13] << 21 + carry[15] = (s15 + (1 << 20)) >> 21 + s16 += carry[15] + s15 -= carry[15] << 21 + + s5 += s17 * 666643 + s6 += s17 * 470296 + s7 += s17 * 654183 + s8 -= s17 * 997805 + s9 += s17 * 136657 + s10 -= s17 * 683901 + s17 = 0 + + s4 += s16 * 666643 + s5 += s16 * 470296 + s6 += s16 * 654183 + s7 -= s16 * 997805 + s8 += s16 * 136657 + s9 -= s16 * 683901 + s16 = 0 + + s3 += s15 * 666643 + s4 += s15 * 470296 + s5 += s15 * 654183 + s6 -= s15 * 997805 + s7 += s15 * 136657 + s8 -= s15 * 683901 + s15 = 0 + + s2 += s14 * 666643 + s3 += s14 * 470296 + s4 += s14 * 654183 + s5 -= s14 * 997805 + s6 += s14 * 136657 + s7 -= s14 * 683901 + s14 = 0 + + s1 += s13 * 666643 + s2 += s13 * 470296 + s3 += s13 * 654183 + s4 -= s13 * 997805 + s5 += s13 * 136657 + s6 -= s13 * 683901 + s13 = 0 + + s0 += s12 * 666643 + s1 += s12 * 470296 + s2 += s12 * 654183 + s3 -= s12 * 997805 + s4 += s12 * 136657 + s5 -= s12 * 683901 + s12 = 0 + + carry[0] = (s0 + (1 << 20)) >> 21 + s1 += carry[0] + s0 -= carry[0] << 21 + carry[2] = (s2 + (1 << 20)) >> 21 + s3 += carry[2] + s2 -= carry[2] << 21 + carry[4] = (s4 + (1 << 20)) >> 21 + s5 += carry[4] + s4 -= carry[4] << 21 + carry[6] = (s6 + (1 << 20)) >> 21 + s7 += carry[6] + s6 -= carry[6] << 21 + carry[8] = (s8 + (1 << 20)) >> 21 + s9 += carry[8] + s8 -= carry[8] << 21 + carry[10] = (s10 + (1 << 20)) >> 21 + s11 += carry[10] + s10 -= carry[10] << 21 + + carry[1] = (s1 + (1 << 20)) >> 21 + s2 += carry[1] + s1 -= carry[1] << 21 + carry[3] = (s3 + (1 << 20)) >> 21 + s4 += carry[3] + s3 -= carry[3] << 21 + carry[5] = (s5 + (1 << 20)) >> 21 + s6 += carry[5] + s5 -= carry[5] << 21 + carry[7] = (s7 + (1 << 20)) >> 21 + s8 += carry[7] + s7 -= carry[7] << 21 + carry[9] = (s9 + (1 << 20)) >> 21 + s10 += carry[9] + s9 -= carry[9] << 21 + carry[11] = (s11 + (1 << 20)) >> 21 + s12 += carry[11] + s11 -= carry[11] << 21 + + s0 += s12 * 666643 + s1 += s12 * 470296 + s2 += s12 * 654183 + s3 -= s12 * 997805 + s4 += s12 * 136657 + s5 -= s12 * 683901 + s12 = 0 + + carry[0] = s0 >> 21 + s1 += carry[0] + s0 -= carry[0] << 21 + carry[1] = s1 >> 21 + s2 += carry[1] + s1 -= carry[1] << 21 + carry[2] = s2 >> 21 + s3 += carry[2] + s2 -= carry[2] << 21 + carry[3] = s3 >> 21 + s4 += carry[3] + s3 -= carry[3] << 21 + carry[4] = s4 >> 21 + s5 += carry[4] + s4 -= carry[4] << 21 + carry[5] = s5 >> 21 + s6 += carry[5] + s5 -= carry[5] << 21 + carry[6] = s6 >> 21 + s7 += carry[6] + s6 -= carry[6] << 21 + carry[7] = s7 >> 21 + s8 += carry[7] + s7 -= carry[7] << 21 + carry[8] = s8 >> 21 + s9 += carry[8] + s8 -= carry[8] << 21 + carry[9] = s9 >> 21 + s10 += carry[9] + s9 -= carry[9] << 21 + carry[10] = s10 >> 21 + s11 += carry[10] + s10 -= carry[10] << 21 + carry[11] = s11 >> 21 + s12 += carry[11] + s11 -= carry[11] << 21 + + s0 += s12 * 666643 + s1 += s12 * 470296 + s2 += s12 * 654183 + s3 -= s12 * 997805 + s4 += s12 * 136657 + s5 -= s12 * 683901 + s12 = 0 + + carry[0] = s0 >> 21 + s1 += carry[0] + s0 -= carry[0] << 21 + carry[1] = s1 >> 21 + s2 += carry[1] + s1 -= carry[1] << 21 + carry[2] = s2 >> 21 + s3 += carry[2] + s2 -= carry[2] << 21 + carry[3] = s3 >> 21 + s4 += carry[3] + s3 -= carry[3] << 21 + carry[4] = s4 >> 21 + s5 += carry[4] + s4 -= carry[4] << 21 + carry[5] = s5 >> 21 + s6 += carry[5] + s5 -= carry[5] << 21 + carry[6] = s6 >> 21 + s7 += carry[6] + s6 -= carry[6] << 21 + carry[7] = s7 >> 21 + s8 += carry[7] + s7 -= carry[7] << 21 + carry[8] = s8 >> 21 + s9 += carry[8] + s8 -= carry[8] << 21 + carry[9] = s9 >> 21 + s10 += carry[9] + s9 -= carry[9] << 21 + carry[10] = s10 >> 21 + s11 += carry[10] + s10 -= carry[10] << 21 + + out[0] = byte(s0 >> 0) + out[1] = byte(s0 >> 8) + out[2] = byte((s0 >> 16) | (s1 << 5)) + out[3] = byte(s1 >> 3) + out[4] = byte(s1 >> 11) + out[5] = byte((s1 >> 19) | (s2 << 2)) + out[6] = byte(s2 >> 6) + out[7] = byte((s2 >> 14) | (s3 << 7)) + out[8] = byte(s3 >> 1) + out[9] = byte(s3 >> 9) + out[10] = byte((s3 >> 17) | (s4 << 4)) + out[11] = byte(s4 >> 4) + out[12] = byte(s4 >> 12) + out[13] = byte((s4 >> 20) | (s5 << 1)) + out[14] = byte(s5 >> 7) + out[15] = byte((s5 >> 15) | (s6 << 6)) + out[16] = byte(s6 >> 2) + out[17] = byte(s6 >> 10) + out[18] = byte((s6 >> 18) | (s7 << 3)) + out[19] = byte(s7 >> 5) + out[20] = byte(s7 >> 13) + out[21] = byte(s8 >> 0) + out[22] = byte(s8 >> 8) + out[23] = byte((s8 >> 16) | (s9 << 5)) + out[24] = byte(s9 >> 3) + out[25] = byte(s9 >> 11) + out[26] = byte((s9 >> 19) | (s10 << 2)) + out[27] = byte(s10 >> 6) + out[28] = byte((s10 >> 14) | (s11 << 7)) + out[29] = byte(s11 >> 1) + out[30] = byte(s11 >> 9) + out[31] = byte(s11 >> 17) +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/armor/armor.go b/vendor/github.com/keybase/go-crypto/openpgp/armor/armor.go new file mode 100644 index 00000000..9513a090 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/armor/armor.go @@ -0,0 +1,237 @@ +// Copyright 2010 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package armor implements OpenPGP ASCII Armor, see RFC 4880. OpenPGP Armor is +// very similar to PEM except that it has an additional CRC checksum. +package armor // import "github.com/keybase/go-crypto/openpgp/armor" + +import ( + "bufio" + "bytes" + "encoding/base64" + "io" + "strings" + "unicode" + + "github.com/keybase/go-crypto/openpgp/errors" +) + +// A Block represents an OpenPGP armored structure. +// +// The encoded form is: +// -----BEGIN Type----- +// Headers +// +// base64-encoded Bytes +// '=' base64 encoded checksum +// -----END Type----- +// where Headers is a possibly empty sequence of Key: Value lines. +// +// Since the armored data can be very large, this package presents a streaming +// interface. +type Block struct { + Type string // The type, taken from the preamble (i.e. "PGP SIGNATURE"). + Header map[string]string // Optional headers. + Body io.Reader // A Reader from which the contents can be read + lReader lineReader + oReader openpgpReader +} + +var ArmorCorrupt error = errors.StructuralError("armor invalid") + +const crc24Init = 0xb704ce +const crc24Poly = 0x1864cfb +const crc24Mask = 0xffffff + +// crc24 calculates the OpenPGP checksum as specified in RFC 4880, section 6.1 +func crc24(crc uint32, d []byte) uint32 { + for _, b := range d { + crc ^= uint32(b) << 16 + for i := 0; i < 8; i++ { + crc <<= 1 + if crc&0x1000000 != 0 { + crc ^= crc24Poly + } + } + } + return crc +} + +var armorStart = []byte("-----BEGIN ") +var armorEnd = []byte("-----END ") +var armorEndOfLine = []byte("-----") + +// lineReader wraps a line based reader. It watches for the end of an armor +// block and records the expected CRC value. +type lineReader struct { + in *bufio.Reader + buf []byte + eof bool + crc *uint32 +} + +// ourIsSpace checks if a rune is either space according to unicode +// package, or ZeroWidthSpace (which is not a space according to +// unicode module). Used to trim lines during header reading. +func ourIsSpace(r rune) bool { + return r == '\u200b' || unicode.IsSpace(r) +} + +func (l *lineReader) Read(p []byte) (n int, err error) { + if l.eof { + return 0, io.EOF + } + + if len(l.buf) > 0 { + n = copy(p, l.buf) + l.buf = l.buf[n:] + return + } + + line, _, err := l.in.ReadLine() + if err != nil { + return + } + + line = bytes.TrimFunc(line, ourIsSpace) + + if len(line) == 5 && line[0] == '=' { + // This is the checksum line + var expectedBytes [3]byte + var m int + m, err = base64.StdEncoding.Decode(expectedBytes[0:], line[1:]) + if m != 3 || err != nil { + return + } + crc := uint32(expectedBytes[0])<<16 | + uint32(expectedBytes[1])<<8 | + uint32(expectedBytes[2]) + l.crc = &crc + + for { + line, _, err = l.in.ReadLine() + if err != nil && err != io.EOF { + return + } + if len(strings.TrimSpace(string(line))) > 0 { + break + } + } + if !bytes.HasPrefix(line, armorEnd) { + return 0, ArmorCorrupt + } + + l.eof = true + return 0, io.EOF + } + + if bytes.HasPrefix(line, armorEnd) { + // Unexpected ending, there was no checksum. + l.eof = true + l.crc = nil + return 0, io.EOF + } + + n = copy(p, line) + bytesToSave := len(line) - n + if bytesToSave > 0 { + if cap(l.buf) < bytesToSave { + l.buf = make([]byte, 0, bytesToSave) + } + l.buf = l.buf[0:bytesToSave] + copy(l.buf, line[n:]) + } + + return +} + +// openpgpReader passes Read calls to the underlying base64 decoder, but keeps +// a running CRC of the resulting data and checks the CRC against the value +// found by the lineReader at EOF. +type openpgpReader struct { + lReader *lineReader + b64Reader io.Reader + currentCRC uint32 +} + +func (r *openpgpReader) Read(p []byte) (n int, err error) { + n, err = r.b64Reader.Read(p) + r.currentCRC = crc24(r.currentCRC, p[:n]) + + if err == io.EOF { + if r.lReader.crc != nil && *r.lReader.crc != uint32(r.currentCRC&crc24Mask) { + return 0, ArmorCorrupt + } + } + + return +} + +// Decode reads a PGP armored block from the given Reader. It will ignore +// leading garbage. If it doesn't find a block, it will return nil, io.EOF. The +// given Reader is not usable after calling this function: an arbitrary amount +// of data may have been read past the end of the block. +func Decode(in io.Reader) (p *Block, err error) { + r := bufio.NewReaderSize(in, 100) + var line []byte + ignoreNext := false + +TryNextBlock: + p = nil + + // Skip leading garbage + for { + ignoreThis := ignoreNext + line, ignoreNext, err = r.ReadLine() + if err != nil { + return + } + if ignoreNext || ignoreThis { + continue + } + line = bytes.TrimSpace(line) + if len(line) > len(armorStart)+len(armorEndOfLine) && bytes.HasPrefix(line, armorStart) { + break + } + } + + p = new(Block) + p.Type = string(line[len(armorStart) : len(line)-len(armorEndOfLine)]) + p.Header = make(map[string]string) + nextIsContinuation := false + var lastKey string + + // Read headers + for { + isContinuation := nextIsContinuation + line, nextIsContinuation, err = r.ReadLine() + if err != nil { + p = nil + return + } + if isContinuation { + p.Header[lastKey] += string(line) + continue + } + line = bytes.TrimFunc(line, ourIsSpace) + if len(line) == 0 { + break + } + + i := bytes.Index(line, []byte(": ")) + if i == -1 { + goto TryNextBlock + } + lastKey = string(line[:i]) + p.Header[lastKey] = string(line[i+2:]) + } + + p.lReader.in = r + p.oReader.currentCRC = crc24Init + p.oReader.lReader = &p.lReader + p.oReader.b64Reader = base64.NewDecoder(base64.StdEncoding, &p.lReader) + p.Body = &p.oReader + + return +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/armor/encode.go b/vendor/github.com/keybase/go-crypto/openpgp/armor/encode.go new file mode 100644 index 00000000..075a1978 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/armor/encode.go @@ -0,0 +1,160 @@ +// Copyright 2010 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package armor + +import ( + "encoding/base64" + "io" +) + +var armorHeaderSep = []byte(": ") +var blockEnd = []byte("\n=") +var newline = []byte("\n") +var armorEndOfLineOut = []byte("-----\n") + +// writeSlices writes its arguments to the given Writer. +func writeSlices(out io.Writer, slices ...[]byte) (err error) { + for _, s := range slices { + _, err = out.Write(s) + if err != nil { + return err + } + } + return +} + +// lineBreaker breaks data across several lines, all of the same byte length +// (except possibly the last). Lines are broken with a single '\n'. +type lineBreaker struct { + lineLength int + line []byte + used int + out io.Writer + haveWritten bool +} + +func newLineBreaker(out io.Writer, lineLength int) *lineBreaker { + return &lineBreaker{ + lineLength: lineLength, + line: make([]byte, lineLength), + used: 0, + out: out, + } +} + +func (l *lineBreaker) Write(b []byte) (n int, err error) { + n = len(b) + + if n == 0 { + return + } + + if l.used == 0 && l.haveWritten { + _, err = l.out.Write([]byte{'\n'}) + if err != nil { + return + } + } + + if l.used+len(b) < l.lineLength { + l.used += copy(l.line[l.used:], b) + return + } + + l.haveWritten = true + _, err = l.out.Write(l.line[0:l.used]) + if err != nil { + return + } + excess := l.lineLength - l.used + l.used = 0 + + _, err = l.out.Write(b[0:excess]) + if err != nil { + return + } + + _, err = l.Write(b[excess:]) + return +} + +func (l *lineBreaker) Close() (err error) { + if l.used > 0 { + _, err = l.out.Write(l.line[0:l.used]) + if err != nil { + return + } + } + + return +} + +// encoding keeps track of a running CRC24 over the data which has been written +// to it and outputs a OpenPGP checksum when closed, followed by an armor +// trailer. +// +// It's built into a stack of io.Writers: +// encoding -> base64 encoder -> lineBreaker -> out +type encoding struct { + out io.Writer + breaker *lineBreaker + b64 io.WriteCloser + crc uint32 + blockType []byte +} + +func (e *encoding) Write(data []byte) (n int, err error) { + e.crc = crc24(e.crc, data) + return e.b64.Write(data) +} + +func (e *encoding) Close() (err error) { + err = e.b64.Close() + if err != nil { + return + } + e.breaker.Close() + + var checksumBytes [3]byte + checksumBytes[0] = byte(e.crc >> 16) + checksumBytes[1] = byte(e.crc >> 8) + checksumBytes[2] = byte(e.crc) + + var b64ChecksumBytes [4]byte + base64.StdEncoding.Encode(b64ChecksumBytes[:], checksumBytes[:]) + + return writeSlices(e.out, blockEnd, b64ChecksumBytes[:], newline, armorEnd, e.blockType, armorEndOfLine, []byte{'\n'}) +} + +// Encode returns a WriteCloser which will encode the data written to it in +// OpenPGP armor. +func Encode(out io.Writer, blockType string, headers map[string]string) (w io.WriteCloser, err error) { + bType := []byte(blockType) + err = writeSlices(out, armorStart, bType, armorEndOfLineOut) + if err != nil { + return + } + + for k, v := range headers { + err = writeSlices(out, []byte(k), armorHeaderSep, []byte(v), newline) + if err != nil { + return + } + } + + _, err = out.Write(newline) + if err != nil { + return + } + + e := &encoding{ + out: out, + breaker: newLineBreaker(out, 64), + crc: crc24Init, + blockType: bType, + } + e.b64 = base64.NewEncoder(base64.StdEncoding, e.breaker) + return e, nil +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/canonical_text.go b/vendor/github.com/keybase/go-crypto/openpgp/canonical_text.go new file mode 100644 index 00000000..e601e389 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/canonical_text.go @@ -0,0 +1,59 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package openpgp + +import "hash" + +// NewCanonicalTextHash reformats text written to it into the canonical +// form and then applies the hash h. See RFC 4880, section 5.2.1. +func NewCanonicalTextHash(h hash.Hash) hash.Hash { + return &canonicalTextHash{h, 0} +} + +type canonicalTextHash struct { + h hash.Hash + s int +} + +var newline = []byte{'\r', '\n'} + +func (cth *canonicalTextHash) Write(buf []byte) (int, error) { + start := 0 + + for i, c := range buf { + switch cth.s { + case 0: + if c == '\r' { + cth.s = 1 + } else if c == '\n' { + cth.h.Write(buf[start:i]) + cth.h.Write(newline) + start = i + 1 + } + case 1: + cth.s = 0 + } + } + + cth.h.Write(buf[start:]) + return len(buf), nil +} + +func (cth *canonicalTextHash) Sum(in []byte) []byte { + return cth.h.Sum(in) +} + +func (cth *canonicalTextHash) Reset() { + cth.h.Reset() + cth.s = 0 +} + +func (cth *canonicalTextHash) Size() int { + return cth.h.Size() +} + +func (cth *canonicalTextHash) BlockSize() int { + return cth.h.BlockSize() +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/ecdh/ecdh.go b/vendor/github.com/keybase/go-crypto/openpgp/ecdh/ecdh.go new file mode 100644 index 00000000..64c18d0b --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/ecdh/ecdh.go @@ -0,0 +1,282 @@ +package ecdh + +import ( + "bytes" + "crypto" + "crypto/aes" + "crypto/elliptic" + "encoding/binary" + "errors" + "github.com/keybase/go-crypto/curve25519" + "io" + "math/big" +) + +type PublicKey struct { + elliptic.Curve + X, Y *big.Int +} + +type PrivateKey struct { + PublicKey + X *big.Int +} + +// KDF implements Key Derivation Function as described in +// https://tools.ietf.org/html/rfc6637#section-7 +func (e *PublicKey) KDF(S []byte, kdfParams []byte, hash crypto.Hash) []byte { + sLen := (e.Curve.Params().P.BitLen() + 7) / 8 + buf := new(bytes.Buffer) + buf.Write([]byte{0, 0, 0, 1}) + if sLen > len(S) { + // zero-pad the S. If we got invalid S (bigger than curve's + // P), we are going to produce invalid key. Garbage in, + // garbage out. + buf.Write(make([]byte, sLen-len(S))) + } + buf.Write(S) + buf.Write(kdfParams) + + hashw := hash.New() + + hashw.Write(buf.Bytes()) + key := hashw.Sum(nil) + + return key +} + +// AESKeyUnwrap implements RFC 3394 Key Unwrapping. See +// http://tools.ietf.org/html/rfc3394#section-2.2.1 +// Note: The second described algorithm ("index-based") is implemented +// here. +func AESKeyUnwrap(key, cipherText []byte) ([]byte, error) { + if len(cipherText)%8 != 0 { + return nil, errors.New("cipherText must by a multiple of 64 bits") + } + + cipher, err := aes.NewCipher(key) + if err != nil { + return nil, err + } + + nblocks := len(cipherText)/8 - 1 + + // 1) Initialize variables. + // - Set A = C[0] + var A [aes.BlockSize]byte + copy(A[:8], cipherText[:8]) + + // For i = 1 to n + // Set R[i] = C[i] + R := make([]byte, len(cipherText)-8) + copy(R, cipherText[8:]) + + // 2) Compute intermediate values. + for j := 5; j >= 0; j-- { + for i := nblocks - 1; i >= 0; i-- { + // B = AES-1(K, (A ^ t) | R[i]) where t = n*j+i + // A = MSB(64, B) + t := uint64(nblocks*j + i + 1) + At := binary.BigEndian.Uint64(A[:8]) ^ t + binary.BigEndian.PutUint64(A[:8], At) + + copy(A[8:], R[i*8:i*8+8]) + cipher.Decrypt(A[:], A[:]) + + // R[i] = LSB(B, 64) + copy(R[i*8:i*8+8], A[8:]) + } + } + + // 3) Output results. + // If A is an appropriate initial value (see 2.2.3), + for i := 0; i < 8; i++ { + if A[i] != 0xA6 { + return nil, errors.New("Failed to unwrap key (A is not IV)") + } + } + + return R, nil +} + +// AESKeyWrap implements RFC 3394 Key Wrapping. See +// https://tools.ietf.org/html/rfc3394#section-2.2.2 +// Note: The second described algorithm ("index-based") is implemented +// here. +func AESKeyWrap(key, plainText []byte) ([]byte, error) { + if len(plainText)%8 != 0 { + return nil, errors.New("plainText must be a multiple of 64 bits") + } + + cipher, err := aes.NewCipher(key) // NewCipher checks key size + if err != nil { + return nil, err + } + + nblocks := len(plainText) / 8 + + // 1) Initialize variables. + var A [aes.BlockSize]byte + // Section 2.2.3.1 -- Initial Value + // http://tools.ietf.org/html/rfc3394#section-2.2.3.1 + for i := 0; i < 8; i++ { + A[i] = 0xA6 + } + + // For i = 1 to n + // Set R[i] = P[i] + R := make([]byte, len(plainText)) + copy(R, plainText) + + // 2) Calculate intermediate values. + for j := 0; j <= 5; j++ { + for i := 0; i < nblocks; i++ { + // B = AES(K, A | R[i]) + copy(A[8:], R[i*8:i*8+8]) + cipher.Encrypt(A[:], A[:]) + + // (Assume B = A) + // A = MSB(64, B) ^ t where t = (n*j)+1 + t := uint64(j*nblocks + i + 1) + At := binary.BigEndian.Uint64(A[:8]) ^ t + binary.BigEndian.PutUint64(A[:8], At) + + // R[i] = LSB(64, B) + copy(R[i*8:i*8+8], A[8:]) + } + } + + // 3) Output results. + // Set C[0] = A + // For i = 1 to n + // C[i] = R[i] + return append(A[:8], R...), nil +} + +// PadBuffer pads byte buffer buf to a length being multiple of +// blockLen. Additional bytes appended to the buffer have value of the +// number padded bytes. E.g. if the buffer is 3 bytes short of being +// 40 bytes total, the appended bytes will be [03, 03, 03]. +func PadBuffer(buf []byte, blockLen int) []byte { + padding := blockLen - (len(buf) % blockLen) + if padding == 0 { + return buf + } + + padBuf := make([]byte, padding) + for i := 0; i < padding; i++ { + padBuf[i] = byte(padding) + } + + return append(buf, padBuf...) +} + +// UnpadBuffer verifies that buffer contains proper padding and +// returns buffer without the padding, or nil if the padding was +// invalid. +func UnpadBuffer(buf []byte, dataLen int) []byte { + padding := len(buf) - dataLen + outBuf := buf[:dataLen] + + for i := dataLen; i < len(buf); i++ { + if buf[i] != byte(padding) { + // Invalid padding - bail out + return nil + } + } + + return outBuf +} + +func (e *PublicKey) Encrypt(random io.Reader, kdfParams []byte, plain []byte, hash crypto.Hash, kdfKeySize int) (Vx *big.Int, Vy *big.Int, C []byte, err error) { + // Vx, Vy - encryption key + + // Note for Curve 25519 - curve25519 library already does key + // clamping in scalarMult, so we can use generic random scalar + // generation from elliptic. + priv, Vx, Vy, err := elliptic.GenerateKey(e.Curve, random) + if err != nil { + return nil, nil, nil, err + } + + // Sx, Sy - shared secret + Sx, _ := e.Curve.ScalarMult(e.X, e.Y, priv) + + // Encrypt the payload with KDF-ed S as the encryption key. Pass + // the ciphertext along with V to the recipient. Recipient can + // generate S using V and their priv key, and then KDF(S), on + // their own, to get encryption key and decrypt the ciphertext, + // revealing encryption key for symmetric encryption later. + + plain = PadBuffer(plain, 8) + key := e.KDF(Sx.Bytes(), kdfParams, hash) + + // Take only as many bytes from key as the key length (the hash + // result might be bigger) + encrypted, err := AESKeyWrap(key[:kdfKeySize], plain) + + return Vx, Vy, encrypted, nil +} + +func (e *PrivateKey) DecryptShared(X, Y *big.Int) []byte { + Sx, _ := e.Curve.ScalarMult(X, Y, e.X.Bytes()) + return Sx.Bytes() +} + +func countBits(buffer []byte) int { + var headerLen int + switch buffer[0] { + case 0x4: + headerLen = 3 + case 0x40: + headerLen = 7 + default: + // Unexpected header - but we can still count the bits. + val := buffer[0] + headerLen = 0 + for val > 0 { + val = val / 2 + headerLen++ + } + } + + return headerLen + (len(buffer)-1)*8 +} + +// elliptic.Marshal and elliptic.Unmarshal only marshals uncompressed +// 0x4 MPI types. These functions will check if the curve is cv25519, +// and if so, use 0x40 compressed type to (un)marshal. Otherwise, +// elliptic.(Un)marshal will be called. + +// Marshal encodes point into either 0x4 uncompressed point form, or +// 0x40 compressed point for Curve 25519. +func Marshal(curve elliptic.Curve, x, y *big.Int) (buf []byte, bitSize int) { + // NOTE: Read more about MPI encoding in the RFC: + // https://tools.ietf.org/html/rfc4880#section-3.2 + + // We are required to encode size in bits, counting from the most- + // significant non-zero bit. So assuming that the buffer never + // starts with 0x00, we only need to count bits in the first byte + // - and in current implentation it will always be 0x4 or 0x40. + + cv, ok := curve25519.ToCurve25519(curve) + if ok { + buf = cv.MarshalType40(x, y) + } else { + buf = elliptic.Marshal(curve, x, y) + } + + return buf, countBits(buf) +} + +// Unmarshal converts point, serialized by Marshal, into x, y pair. +// For 0x40 compressed points (for Curve 25519), y will always be 0. +// It is an error if point is not on the curve, On error, x = nil. +func Unmarshal(curve elliptic.Curve, data []byte) (x, y *big.Int) { + cv, ok := curve25519.ToCurve25519(curve) + if ok { + return cv.UnmarshalType40(data) + } + + return elliptic.Unmarshal(curve, data) +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/elgamal/elgamal.go b/vendor/github.com/keybase/go-crypto/openpgp/elgamal/elgamal.go new file mode 100644 index 00000000..15dafc55 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/elgamal/elgamal.go @@ -0,0 +1,122 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package elgamal implements ElGamal encryption, suitable for OpenPGP, +// as specified in "A Public-Key Cryptosystem and a Signature Scheme Based on +// Discrete Logarithms," IEEE Transactions on Information Theory, v. IT-31, +// n. 4, 1985, pp. 469-472. +// +// This form of ElGamal embeds PKCS#1 v1.5 padding, which may make it +// unsuitable for other protocols. RSA should be used in preference in any +// case. +package elgamal // import "github.com/keybase/go-crypto/openpgp/elgamal" + +import ( + "crypto/rand" + "crypto/subtle" + "errors" + "io" + "math/big" +) + +// PublicKey represents an ElGamal public key. +type PublicKey struct { + G, P, Y *big.Int +} + +// PrivateKey represents an ElGamal private key. +type PrivateKey struct { + PublicKey + X *big.Int +} + +// Encrypt encrypts the given message to the given public key. The result is a +// pair of integers. Errors can result from reading random, or because msg is +// too large to be encrypted to the public key. +func Encrypt(random io.Reader, pub *PublicKey, msg []byte) (c1, c2 *big.Int, err error) { + pLen := (pub.P.BitLen() + 7) / 8 + if len(msg) > pLen-11 { + err = errors.New("elgamal: message too long") + return + } + + // EM = 0x02 || PS || 0x00 || M + em := make([]byte, pLen-1) + em[0] = 2 + ps, mm := em[1:len(em)-len(msg)-1], em[len(em)-len(msg):] + err = nonZeroRandomBytes(ps, random) + if err != nil { + return + } + em[len(em)-len(msg)-1] = 0 + copy(mm, msg) + + m := new(big.Int).SetBytes(em) + + k, err := rand.Int(random, pub.P) + if err != nil { + return + } + + c1 = new(big.Int).Exp(pub.G, k, pub.P) + s := new(big.Int).Exp(pub.Y, k, pub.P) + c2 = s.Mul(s, m) + c2.Mod(c2, pub.P) + + return +} + +// Decrypt takes two integers, resulting from an ElGamal encryption, and +// returns the plaintext of the message. An error can result only if the +// ciphertext is invalid. Users should keep in mind that this is a padding +// oracle and thus, if exposed to an adaptive chosen ciphertext attack, can +// be used to break the cryptosystem. See ``Chosen Ciphertext Attacks +// Against Protocols Based on the RSA Encryption Standard PKCS #1'', Daniel +// Bleichenbacher, Advances in Cryptology (Crypto '98), +func Decrypt(priv *PrivateKey, c1, c2 *big.Int) (msg []byte, err error) { + s := new(big.Int).Exp(c1, priv.X, priv.P) + s.ModInverse(s, priv.P) + s.Mul(s, c2) + s.Mod(s, priv.P) + em := s.Bytes() + + firstByteIsTwo := subtle.ConstantTimeByteEq(em[0], 2) + + // The remainder of the plaintext must be a string of non-zero random + // octets, followed by a 0, followed by the message. + // lookingForIndex: 1 iff we are still looking for the zero. + // index: the offset of the first zero byte. + var lookingForIndex, index int + lookingForIndex = 1 + + for i := 1; i < len(em); i++ { + equals0 := subtle.ConstantTimeByteEq(em[i], 0) + index = subtle.ConstantTimeSelect(lookingForIndex&equals0, i, index) + lookingForIndex = subtle.ConstantTimeSelect(equals0, 0, lookingForIndex) + } + + if firstByteIsTwo != 1 || lookingForIndex != 0 || index < 9 { + return nil, errors.New("elgamal: decryption error") + } + return em[index+1:], nil +} + +// nonZeroRandomBytes fills the given slice with non-zero random octets. +func nonZeroRandomBytes(s []byte, rand io.Reader) (err error) { + _, err = io.ReadFull(rand, s) + if err != nil { + return + } + + for i := 0; i < len(s); i++ { + for s[i] == 0 { + _, err = io.ReadFull(rand, s[i:i+1]) + if err != nil { + return + } + } + } + + return +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/errors/errors.go b/vendor/github.com/keybase/go-crypto/openpgp/errors/errors.go new file mode 100644 index 00000000..d48c6c9b --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/errors/errors.go @@ -0,0 +1,72 @@ +// Copyright 2010 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package errors contains common error types for the OpenPGP packages. +package errors // import "github.com/keybase/go-crypto/openpgp/errors" + +import ( + "strconv" +) + +// A StructuralError is returned when OpenPGP data is found to be syntactically +// invalid. +type StructuralError string + +func (s StructuralError) Error() string { + return "openpgp: invalid data: " + string(s) +} + +// UnsupportedError indicates that, although the OpenPGP data is valid, it +// makes use of currently unimplemented features. +type UnsupportedError string + +func (s UnsupportedError) Error() string { + return "openpgp: unsupported feature: " + string(s) +} + +// InvalidArgumentError indicates that the caller is in error and passed an +// incorrect value. +type InvalidArgumentError string + +func (i InvalidArgumentError) Error() string { + return "openpgp: invalid argument: " + string(i) +} + +// SignatureError indicates that a syntactically valid signature failed to +// validate. +type SignatureError string + +func (b SignatureError) Error() string { + return "openpgp: invalid signature: " + string(b) +} + +type keyIncorrectError int + +func (ki keyIncorrectError) Error() string { + return "openpgp: incorrect key" +} + +var ErrKeyIncorrect error = keyIncorrectError(0) + +type unknownIssuerError int + +func (unknownIssuerError) Error() string { + return "openpgp: signature made by unknown entity" +} + +var ErrUnknownIssuer error = unknownIssuerError(0) + +type keyRevokedError int + +func (keyRevokedError) Error() string { + return "openpgp: signature made by revoked key" +} + +var ErrKeyRevoked error = keyRevokedError(0) + +type UnknownPacketTypeError uint8 + +func (upte UnknownPacketTypeError) Error() string { + return "openpgp: unknown packet type: " + strconv.Itoa(int(upte)) +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/keys.go b/vendor/github.com/keybase/go-crypto/openpgp/keys.go new file mode 100644 index 00000000..e1a45887 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/keys.go @@ -0,0 +1,902 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package openpgp + +import ( + "crypto/hmac" + "encoding/binary" + "io" + "time" + + "github.com/keybase/go-crypto/openpgp/armor" + "github.com/keybase/go-crypto/openpgp/errors" + "github.com/keybase/go-crypto/openpgp/packet" + "github.com/keybase/go-crypto/rsa" +) + +// PublicKeyType is the armor type for a PGP public key. +var PublicKeyType = "PGP PUBLIC KEY BLOCK" + +// PrivateKeyType is the armor type for a PGP private key. +var PrivateKeyType = "PGP PRIVATE KEY BLOCK" + +// An Entity represents the components of an OpenPGP key: a primary public key +// (which must be a signing key), one or more identities claimed by that key, +// and zero or more subkeys, which may be encryption keys. +type Entity struct { + PrimaryKey *packet.PublicKey + PrivateKey *packet.PrivateKey + Identities map[string]*Identity // indexed by Identity.Name + Revocations []*packet.Signature + // Revocations that are signed by designated revokers. Reading keys + // will not verify these revocations, because it won't have access to + // issuers' public keys, API consumers should do this instead (or + // not, and just assume that the key is probably revoked). + UnverifiedRevocations []*packet.Signature + Subkeys []Subkey + BadSubkeys []BadSubkey +} + +// An Identity represents an identity claimed by an Entity and zero or more +// assertions by other entities about that claim. +type Identity struct { + Name string // by convention, has the form "Full Name (comment) " + UserId *packet.UserId + SelfSignature *packet.Signature + Signatures []*packet.Signature + Revocation *packet.Signature +} + +// A Subkey is an additional public key in an Entity. Subkeys can be used for +// encryption. +type Subkey struct { + PublicKey *packet.PublicKey + PrivateKey *packet.PrivateKey + Sig *packet.Signature + Revocation *packet.Signature +} + +// BadSubkey is one that failed reconstruction, but we'll keep it around for +// informational purposes. +type BadSubkey struct { + Subkey + Err error +} + +// A Key identifies a specific public key in an Entity. This is either the +// Entity's primary key or a subkey. +type Key struct { + Entity *Entity + PublicKey *packet.PublicKey + PrivateKey *packet.PrivateKey + SelfSignature *packet.Signature + KeyFlags packet.KeyFlagBits +} + +// A KeyRing provides access to public and private keys. +type KeyRing interface { + + // KeysById returns the set of keys that have the given key id. + // fp can be optionally supplied, which is the full key fingerprint. + // If it's provided, then it must match. This comes up in the case + // of GPG subpacket 33. + KeysById(id uint64, fp []byte) []Key + + // KeysByIdAndUsage returns the set of keys with the given id + // that also meet the key usage given by requiredUsage. + // The requiredUsage is expressed as the bitwise-OR of + // packet.KeyFlag* values. + // fp can be optionally supplied, which is the full key fingerprint. + // If it's provided, then it must match. This comes up in the case + // of GPG subpacket 33. + KeysByIdUsage(id uint64, fp []byte, requiredUsage byte) []Key + + // DecryptionKeys returns all private keys that are valid for + // decryption. + DecryptionKeys() []Key +} + +// primaryIdentity returns the Identity marked as primary or the first identity +// if none are so marked. +func (e *Entity) primaryIdentity() *Identity { + var firstIdentity *Identity + for _, ident := range e.Identities { + if firstIdentity == nil { + firstIdentity = ident + } + if ident.SelfSignature.IsPrimaryId != nil && *ident.SelfSignature.IsPrimaryId { + return ident + } + } + return firstIdentity +} + +// encryptionKey returns the best candidate Key for encrypting a message to the +// given Entity. +func (e *Entity) encryptionKey(now time.Time) (Key, bool) { + candidateSubkey := -1 + + // Iterate the keys to find the newest key + var maxTime time.Time + for i, subkey := range e.Subkeys { + + // NOTE(maxtaco) + // If there is a Flags subpacket, then we have to follow it, and only + // use keys that are marked for Encryption of Communication. If there + // isn't a Flags subpacket, and this is an Encrypt-Only key (right now only ElGamal + // suffices), then we implicitly use it. The check for primary below is a little + // more open-ended, but for now, let's be strict and potentially open up + // if we see bugs in the wild. + // + // One more note: old DSA/ElGamal keys tend not to have the Flags subpacket, + // so this sort of thing is pretty important for encrypting to older keys. + // + if ((subkey.Sig.FlagsValid && subkey.Sig.FlagEncryptCommunications) || + (!subkey.Sig.FlagsValid && subkey.PublicKey.PubKeyAlgo == packet.PubKeyAlgoElGamal)) && + subkey.PublicKey.PubKeyAlgo.CanEncrypt() && + !subkey.Sig.KeyExpired(now) && + subkey.Revocation == nil && + (maxTime.IsZero() || subkey.Sig.CreationTime.After(maxTime)) { + candidateSubkey = i + maxTime = subkey.Sig.CreationTime + } + } + + if candidateSubkey != -1 { + subkey := e.Subkeys[candidateSubkey] + return Key{e, subkey.PublicKey, subkey.PrivateKey, subkey.Sig, subkey.Sig.GetKeyFlags()}, true + } + + // If we don't have any candidate subkeys for encryption and + // the primary key doesn't have any usage metadata then we + // assume that the primary key is ok. Or, if the primary key is + // marked as ok to encrypt to, then we can obviously use it. + // + // NOTE(maxtaco) - see note above, how this policy is a little too open-ended + // for my liking, but leave it for now. + i := e.primaryIdentity() + if (!i.SelfSignature.FlagsValid || i.SelfSignature.FlagEncryptCommunications) && + e.PrimaryKey.PubKeyAlgo.CanEncrypt() && + !i.SelfSignature.KeyExpired(now) { + return Key{e, e.PrimaryKey, e.PrivateKey, i.SelfSignature, i.SelfSignature.GetKeyFlags()}, true + } + + // This Entity appears to be signing only. + return Key{}, false +} + +// signingKey return the best candidate Key for signing a message with this +// Entity. +func (e *Entity) signingKey(now time.Time) (Key, bool) { + candidateSubkey := -1 + + for i, subkey := range e.Subkeys { + if (!subkey.Sig.FlagsValid || subkey.Sig.FlagSign) && + subkey.PrivateKey.PrivateKey != nil && + subkey.PublicKey.PubKeyAlgo.CanSign() && + subkey.Revocation == nil && + !subkey.Sig.KeyExpired(now) { + candidateSubkey = i + break + } + } + + if candidateSubkey != -1 { + subkey := e.Subkeys[candidateSubkey] + return Key{e, subkey.PublicKey, subkey.PrivateKey, subkey.Sig, subkey.Sig.GetKeyFlags()}, true + } + + // If we have no candidate subkey then we assume that it's ok to sign + // with the primary key. + i := e.primaryIdentity() + if (!i.SelfSignature.FlagsValid || i.SelfSignature.FlagSign) && + e.PrimaryKey.PubKeyAlgo.CanSign() && + !i.SelfSignature.KeyExpired(now) && + e.PrivateKey.PrivateKey != nil { + return Key{e, e.PrimaryKey, e.PrivateKey, i.SelfSignature, i.SelfSignature.GetKeyFlags()}, true + } + + return Key{}, false +} + +// An EntityList contains one or more Entities. +type EntityList []*Entity + +func keyMatchesIdAndFingerprint(key *packet.PublicKey, id uint64, fp []byte) bool { + if key.KeyId != id { + return false + } + if fp == nil { + return true + } + return hmac.Equal(fp, key.Fingerprint[:]) +} + +// KeysById returns the set of keys that have the given key id. +// fp can be optionally supplied, which is the full key fingerprint. +// If it's provided, then it must match. This comes up in the case +// of GPG subpacket 33. +func (el EntityList) KeysById(id uint64, fp []byte) (keys []Key) { + for _, e := range el { + if keyMatchesIdAndFingerprint(e.PrimaryKey, id, fp) { + var selfSig *packet.Signature + for _, ident := range e.Identities { + if selfSig == nil { + selfSig = ident.SelfSignature + } else if ident.SelfSignature.IsPrimaryId != nil && *ident.SelfSignature.IsPrimaryId { + selfSig = ident.SelfSignature + break + } + } + + var keyFlags packet.KeyFlagBits + for _, ident := range e.Identities { + keyFlags.Merge(ident.SelfSignature.GetKeyFlags()) + } + + keys = append(keys, Key{e, e.PrimaryKey, e.PrivateKey, selfSig, keyFlags}) + } + + for _, subKey := range e.Subkeys { + if keyMatchesIdAndFingerprint(subKey.PublicKey, id, fp) { + + // If there's both a a revocation and a sig, then take the + // revocation. Otherwise, we can proceed with the sig. + sig := subKey.Revocation + if sig == nil { + sig = subKey.Sig + } + + keys = append(keys, Key{e, subKey.PublicKey, subKey.PrivateKey, sig, sig.GetKeyFlags()}) + } + } + } + return +} + +// KeysByIdAndUsage returns the set of keys with the given id that also meet +// the key usage given by requiredUsage. The requiredUsage is expressed as +// the bitwise-OR of packet.KeyFlag* values. +// fp can be optionally supplied, which is the full key fingerprint. +// If it's provided, then it must match. This comes up in the case +// of GPG subpacket 33. +func (el EntityList) KeysByIdUsage(id uint64, fp []byte, requiredUsage byte) (keys []Key) { + for _, key := range el.KeysById(id, fp) { + if len(key.Entity.Revocations) > 0 { + continue + } + + if key.SelfSignature.RevocationReason != nil { + continue + } + + if requiredUsage != 0 { + var usage byte + + switch { + case key.KeyFlags.Valid: + usage = key.KeyFlags.BitField + + case key.PublicKey.PubKeyAlgo == packet.PubKeyAlgoElGamal: + // We also need to handle the case where, although the sig's + // flags aren't valid, the key can is implicitly usable for + // encryption by virtue of being ElGamal. See also the comment + // in encryptionKey() above. + usage |= packet.KeyFlagEncryptCommunications + usage |= packet.KeyFlagEncryptStorage + + case key.PublicKey.PubKeyAlgo == packet.PubKeyAlgoDSA || + key.PublicKey.PubKeyAlgo == packet.PubKeyAlgoECDSA || + key.PublicKey.PubKeyAlgo == packet.PubKeyAlgoEdDSA: + usage |= packet.KeyFlagSign + + // For a primary RSA key without any key flags, be as permissiable + // as possible. + case key.PublicKey.PubKeyAlgo == packet.PubKeyAlgoRSA && + keyMatchesIdAndFingerprint(key.Entity.PrimaryKey, id, fp): + usage = (packet.KeyFlagCertify | packet.KeyFlagSign | + packet.KeyFlagEncryptCommunications | packet.KeyFlagEncryptStorage) + } + + if usage&requiredUsage != requiredUsage { + continue + } + } + + keys = append(keys, key) + } + return +} + +// DecryptionKeys returns all private keys that are valid for decryption. +func (el EntityList) DecryptionKeys() (keys []Key) { + for _, e := range el { + for _, subKey := range e.Subkeys { + if subKey.PrivateKey != nil && subKey.PrivateKey.PrivateKey != nil && (!subKey.Sig.FlagsValid || subKey.Sig.FlagEncryptStorage || subKey.Sig.FlagEncryptCommunications) { + keys = append(keys, Key{e, subKey.PublicKey, subKey.PrivateKey, subKey.Sig, subKey.Sig.GetKeyFlags()}) + } + } + } + return +} + +// ReadArmoredKeyRing reads one or more public/private keys from an armor keyring file. +func ReadArmoredKeyRing(r io.Reader) (EntityList, error) { + block, err := armor.Decode(r) + if err == io.EOF { + return nil, errors.InvalidArgumentError("no armored data found") + } + if err != nil { + return nil, err + } + if block.Type != PublicKeyType && block.Type != PrivateKeyType { + return nil, errors.InvalidArgumentError("expected public or private key block, got: " + block.Type) + } + + return ReadKeyRing(block.Body) +} + +// ReadKeyRing reads one or more public/private keys. Unsupported keys are +// ignored as long as at least a single valid key is found. +func ReadKeyRing(r io.Reader) (el EntityList, err error) { + packets := packet.NewReader(r) + var lastUnsupportedError error + + for { + var e *Entity + e, err = ReadEntity(packets) + if err != nil { + // TODO: warn about skipped unsupported/unreadable keys + if _, ok := err.(errors.UnsupportedError); ok { + lastUnsupportedError = err + err = readToNextPublicKey(packets) + } else if _, ok := err.(errors.StructuralError); ok { + // Skip unreadable, badly-formatted keys + lastUnsupportedError = err + err = readToNextPublicKey(packets) + } + if err == io.EOF { + err = nil + break + } + if err != nil { + el = nil + break + } + } else { + el = append(el, e) + } + } + + if len(el) == 0 && err == nil { + err = lastUnsupportedError + } + return +} + +// readToNextPublicKey reads packets until the start of the entity and leaves +// the first packet of the new entity in the Reader. +func readToNextPublicKey(packets *packet.Reader) (err error) { + var p packet.Packet + for { + p, err = packets.Next() + if err == io.EOF { + return + } else if err != nil { + if _, ok := err.(errors.UnsupportedError); ok { + err = nil + continue + } + return + } + + if pk, ok := p.(*packet.PublicKey); ok && !pk.IsSubkey { + packets.Unread(p) + return + } + } + + panic("unreachable") +} + +// ReadEntity reads an entity (public key, identities, subkeys etc) from the +// given Reader. +func ReadEntity(packets *packet.Reader) (*Entity, error) { + e := new(Entity) + e.Identities = make(map[string]*Identity) + + p, err := packets.Next() + if err != nil { + return nil, err + } + + var ok bool + if e.PrimaryKey, ok = p.(*packet.PublicKey); !ok { + if e.PrivateKey, ok = p.(*packet.PrivateKey); !ok { + packets.Unread(p) + return nil, errors.StructuralError("first packet was not a public/private key") + } else { + e.PrimaryKey = &e.PrivateKey.PublicKey + } + } + + if !e.PrimaryKey.PubKeyAlgo.CanSign() { + return nil, errors.StructuralError("primary key cannot be used for signatures") + } + + var current *Identity + var revocations []*packet.Signature + + designatedRevokers := make(map[uint64]bool) +EachPacket: + for { + p, err := packets.Next() + if err == io.EOF { + break + } else if err != nil { + return nil, err + } + switch pkt := p.(type) { + case *packet.UserId: + + // Make a new Identity object, that we might wind up throwing away. + // We'll only add it if we get a valid self-signature over this + // userID. + current = new(Identity) + current.Name = pkt.Id + current.UserId = pkt + case *packet.Signature: + if pkt.SigType == packet.SigTypeKeyRevocation { + // These revocations won't revoke UIDs (see + // SigTypeIdentityRevocation). Handle these first, + // because key might have revocation coming from + // another key (designated revoke). + revocations = append(revocations, pkt) + continue + } + + // These are signatures by other people on this key. Let's just ignore them + // from the beginning, since they shouldn't affect our key decoding one way + // or the other. + if pkt.IssuerKeyId != nil && *pkt.IssuerKeyId != e.PrimaryKey.KeyId { + continue + } + + // If this is a signature made by the keyholder, and the signature has stubbed out + // critical packets, then *now* we need to bail out. + if e := pkt.StubbedOutCriticalError; e != nil { + return nil, e + } + + // Next handle the case of a self-signature. According to RFC8440, + // Section 5.2.3.3, if there are several self-signatures, + // we should take the newer one. If they were both created + // at the same time, but one of them has keyflags specified and the + // other doesn't, keep the one with the keyflags. We have actually + // seen this in the wild (see the 'Yield' test in read_test.go). + // If there is a tie, and both have the same value for FlagsValid, + // then "last writer wins." + // + // HOWEVER! We have seen yet more keys in the wild (see the 'Spiros' + // test in read_test.go), in which the later self-signature is a bunch + // of junk, and doesn't even specify key flags. Does it really make + // sense to overwrite reasonable key flags with the empty set? I'm not + // sure what that would be trying to achieve, and plus GPG seems to be + // ok with this situation, and ignores the later (empty) keyflag set. + // So further tighten our overwrite rules, and only allow the later + // signature to overwrite the earlier signature if so doing won't + // trash the key flags. + if current != nil && + (current.SelfSignature == nil || + (!pkt.CreationTime.Before(current.SelfSignature.CreationTime) && + (pkt.FlagsValid || !current.SelfSignature.FlagsValid))) && + (pkt.SigType == packet.SigTypePositiveCert || pkt.SigType == packet.SigTypeGenericCert) && + pkt.IssuerKeyId != nil && + *pkt.IssuerKeyId == e.PrimaryKey.KeyId { + + if err = e.PrimaryKey.VerifyUserIdSignature(current.Name, e.PrimaryKey, pkt); err == nil { + + current.SelfSignature = pkt + + // NOTE(maxtaco) 2016.01.11 + // Only register an identity once we've gotten a valid self-signature. + // It's possible therefore for us to throw away `current` in the case + // no valid self-signatures were found. That's OK as long as there are + // other identies that make sense. + // + // NOTE! We might later see a revocation for this very same UID, and it + // won't be undone. We've preserved this feature from the original + // Google OpenPGP we forked from. + e.Identities[current.Name] = current + } else { + // We really should warn that there was a failure here. Not raise an error + // since this really shouldn't be a fail-stop error. + } + } else if current != nil && pkt.SigType == packet.SigTypeIdentityRevocation { + if err = e.PrimaryKey.VerifyUserIdSignature(current.Name, e.PrimaryKey, pkt); err == nil { + // Note: we are not removing the identity from + // e.Identities. Caller can always filter by Revocation + // field to ignore revoked identities. + current.Revocation = pkt + } + } else if pkt.SigType == packet.SigTypeDirectSignature { + if err = e.PrimaryKey.VerifyRevocationSignature(e.PrimaryKey, pkt); err == nil { + if desig := pkt.DesignatedRevoker; desig != nil { + // If it's a designated revoker signature, take last 8 octects + // of fingerprint as Key ID and save it to designatedRevokers + // map. We consult this map later to see if a foreign + // revocation should be added to UnverifiedRevocations. + keyID := binary.BigEndian.Uint64(desig.Fingerprint[len(desig.Fingerprint)-8:]) + designatedRevokers[keyID] = true + } + } + } else if current == nil { + // NOTE(maxtaco) + // + // See https://github.com/keybase/client/issues/2666 + // + // There might have been a user attribute picture before this signature, + // in which case this is still a valid PGP key. In the future we might + // not ignore user attributes (like picture). But either way, it doesn't + // make sense to bail out here. Keep looking for other valid signatures. + // + // Used to be: + // return nil, errors.StructuralError("signature packet found before user id packet") + } else { + current.Signatures = append(current.Signatures, pkt) + } + case *packet.PrivateKey: + if pkt.IsSubkey == false { + packets.Unread(p) + break EachPacket + } + err = addSubkey(e, packets, &pkt.PublicKey, pkt) + if err != nil { + return nil, err + } + case *packet.PublicKey: + if pkt.IsSubkey == false { + packets.Unread(p) + break EachPacket + } + err = addSubkey(e, packets, pkt, nil) + if err != nil { + return nil, err + } + default: + // we ignore unknown packets + } + } + + if len(e.Identities) == 0 { + return nil, errors.StructuralError("entity without any identities") + } + + for _, revocation := range revocations { + if revocation.IssuerKeyId == nil || *revocation.IssuerKeyId == e.PrimaryKey.KeyId { + // Key revokes itself, something that we can verify. + err = e.PrimaryKey.VerifyRevocationSignature(e.PrimaryKey, revocation) + if err == nil { + e.Revocations = append(e.Revocations, revocation) + } else { + return nil, errors.StructuralError("revocation signature signed by alternate key") + } + } else if revocation.IssuerKeyId != nil { + if _, ok := designatedRevokers[*revocation.IssuerKeyId]; ok { + // Revocation is done by certified designated revoker, + // but we can't verify the revocation. + e.UnverifiedRevocations = append(e.UnverifiedRevocations, revocation) + } + } + } + + return e, nil +} + +func addSubkey(e *Entity, packets *packet.Reader, pub *packet.PublicKey, priv *packet.PrivateKey) error { + var subKey Subkey + subKey.PublicKey = pub + subKey.PrivateKey = priv + var lastErr error + for { + p, err := packets.Next() + if err == io.EOF { + break + } + if err != nil { + return errors.StructuralError("subkey signature invalid: " + err.Error()) + } + sig, ok := p.(*packet.Signature) + if !ok { + // Hit a non-signature packet, so assume we're up to the next key + packets.Unread(p) + break + } + if st := sig.SigType; st != packet.SigTypeSubkeyBinding && st != packet.SigTypeSubkeyRevocation { + + // Note(maxtaco): + // We used to error out here, but instead, let's fast-forward past + // packets that are in the wrong place (like misplaced 0x13 signatures) + // until we get to one that works. For a test case, + // see TestWithBadSubkeySignaturePackets. + + continue + } + err = e.PrimaryKey.VerifyKeySignature(subKey.PublicKey, sig) + if err != nil { + // Non valid signature, so again, no need to abandon all hope, just continue; + // make a note of the error we hit. + lastErr = errors.StructuralError("subkey signature invalid: " + err.Error()) + continue + } + switch sig.SigType { + case packet.SigTypeSubkeyBinding: + // Does the "new" sig set expiration to later date than + // "previous" sig? + if subKey.Sig == nil || subKey.Sig.ExpiresBeforeOther(sig) { + subKey.Sig = sig + } + case packet.SigTypeSubkeyRevocation: + // First writer wins + if subKey.Revocation == nil { + subKey.Revocation = sig + } + } + } + if subKey.Sig != nil { + e.Subkeys = append(e.Subkeys, subKey) + } else { + if lastErr == nil { + lastErr = errors.StructuralError("Subkey wasn't signed; expected a 'binding' signature") + } + e.BadSubkeys = append(e.BadSubkeys, BadSubkey{Subkey: subKey, Err: lastErr}) + } + return nil +} + +const defaultRSAKeyBits = 2048 + +// NewEntity returns an Entity that contains a fresh RSA/RSA keypair with a +// single identity composed of the given full name, comment and email, any of +// which may be empty but must not contain any of "()<>\x00". +// If config is nil, sensible defaults will be used. +func NewEntity(name, comment, email string, config *packet.Config) (*Entity, error) { + currentTime := config.Now() + + bits := defaultRSAKeyBits + if config != nil && config.RSABits != 0 { + bits = config.RSABits + } + + uid := packet.NewUserId(name, comment, email) + if uid == nil { + return nil, errors.InvalidArgumentError("user id field contained invalid characters") + } + signingPriv, err := rsa.GenerateKey(config.Random(), bits) + if err != nil { + return nil, err + } + encryptingPriv, err := rsa.GenerateKey(config.Random(), bits) + if err != nil { + return nil, err + } + + e := &Entity{ + PrimaryKey: packet.NewRSAPublicKey(currentTime, &signingPriv.PublicKey), + PrivateKey: packet.NewRSAPrivateKey(currentTime, signingPriv), + Identities: make(map[string]*Identity), + } + isPrimaryId := true + e.Identities[uid.Id] = &Identity{ + Name: uid.Name, + UserId: uid, + SelfSignature: &packet.Signature{ + CreationTime: currentTime, + SigType: packet.SigTypePositiveCert, + PubKeyAlgo: packet.PubKeyAlgoRSA, + Hash: config.Hash(), + IsPrimaryId: &isPrimaryId, + FlagsValid: true, + FlagSign: true, + FlagCertify: true, + IssuerKeyId: &e.PrimaryKey.KeyId, + }, + } + + e.Subkeys = make([]Subkey, 1) + e.Subkeys[0] = Subkey{ + PublicKey: packet.NewRSAPublicKey(currentTime, &encryptingPriv.PublicKey), + PrivateKey: packet.NewRSAPrivateKey(currentTime, encryptingPriv), + Sig: &packet.Signature{ + CreationTime: currentTime, + SigType: packet.SigTypeSubkeyBinding, + PubKeyAlgo: packet.PubKeyAlgoRSA, + Hash: config.Hash(), + FlagsValid: true, + FlagEncryptStorage: true, + FlagEncryptCommunications: true, + IssuerKeyId: &e.PrimaryKey.KeyId, + }, + } + e.Subkeys[0].PublicKey.IsSubkey = true + e.Subkeys[0].PrivateKey.IsSubkey = true + + return e, nil +} + +// SerializePrivate serializes an Entity, including private key material, to +// the given Writer. For now, it must only be used on an Entity returned from +// NewEntity. +// If config is nil, sensible defaults will be used. +func (e *Entity) SerializePrivate(w io.Writer, config *packet.Config) (err error) { + err = e.PrivateKey.Serialize(w) + if err != nil { + return + } + for _, ident := range e.Identities { + err = ident.UserId.Serialize(w) + if err != nil { + return + } + if e.PrivateKey.PrivateKey != nil { + err = ident.SelfSignature.SignUserId(ident.UserId.Id, e.PrimaryKey, e.PrivateKey, config) + if err != nil { + return + } + } + err = ident.SelfSignature.Serialize(w) + if err != nil { + return + } + } + for _, subkey := range e.Subkeys { + err = subkey.PrivateKey.Serialize(w) + if err != nil { + return + } + // Workaround shortcoming of SignKey(), which doesn't work to reverse-sign + // sub-signing keys. So if requested, just reuse the signatures already + // available to us (if we read this key from a keyring). + if e.PrivateKey.PrivateKey != nil && !config.ReuseSignatures() { + err = subkey.Sig.SignKey(subkey.PublicKey, e.PrivateKey, config) + if err != nil { + return + } + } + + if subkey.Revocation != nil { + err = subkey.Revocation.Serialize(w) + if err != nil { + return + } + } + + err = subkey.Sig.Serialize(w) + if err != nil { + return + } + } + return nil +} + +// Serialize writes the public part of the given Entity to w. (No private +// key material will be output). +func (e *Entity) Serialize(w io.Writer) error { + err := e.PrimaryKey.Serialize(w) + if err != nil { + return err + } + for _, ident := range e.Identities { + err = ident.UserId.Serialize(w) + if err != nil { + return err + } + err = ident.SelfSignature.Serialize(w) + if err != nil { + return err + } + for _, sig := range ident.Signatures { + err = sig.Serialize(w) + if err != nil { + return err + } + } + } + for _, subkey := range e.Subkeys { + err = subkey.PublicKey.Serialize(w) + if err != nil { + return err + } + + if subkey.Revocation != nil { + err = subkey.Revocation.Serialize(w) + if err != nil { + return err + } + } + err = subkey.Sig.Serialize(w) + if err != nil { + return err + } + } + return nil +} + +// SignIdentity adds a signature to e, from signer, attesting that identity is +// associated with e. The provided identity must already be an element of +// e.Identities and the private key of signer must have been decrypted if +// necessary. +// If config is nil, sensible defaults will be used. +func (e *Entity) SignIdentity(identity string, signer *Entity, config *packet.Config) error { + if signer.PrivateKey == nil { + return errors.InvalidArgumentError("signing Entity must have a private key") + } + if signer.PrivateKey.Encrypted { + return errors.InvalidArgumentError("signing Entity's private key must be decrypted") + } + ident, ok := e.Identities[identity] + if !ok { + return errors.InvalidArgumentError("given identity string not found in Entity") + } + + sig := &packet.Signature{ + SigType: packet.SigTypeGenericCert, + PubKeyAlgo: signer.PrivateKey.PubKeyAlgo, + Hash: config.Hash(), + CreationTime: config.Now(), + IssuerKeyId: &signer.PrivateKey.KeyId, + } + if err := sig.SignUserId(identity, e.PrimaryKey, signer.PrivateKey, config); err != nil { + return err + } + ident.Signatures = append(ident.Signatures, sig) + return nil +} + +// CopySubkeyRevocations copies subkey revocations from the src Entity over +// to the receiver entity. We need this because `gpg --export-secret-key` does +// not appear to output subkey revocations. In this case we need to manually +// merge with the output of `gpg --export`. +func (e *Entity) CopySubkeyRevocations(src *Entity) { + m := make(map[[20]byte]*packet.Signature) + for _, subkey := range src.Subkeys { + if subkey.Revocation != nil { + m[subkey.PublicKey.Fingerprint] = subkey.Revocation + } + } + for i, subkey := range e.Subkeys { + if r := m[subkey.PublicKey.Fingerprint]; r != nil { + e.Subkeys[i].Revocation = r + } + } +} + +// CheckDesignatedRevokers will try to confirm any of designated +// revocation of entity. For this function to work, revocation +// issuer's key should be found in keyring. First successfully +// verified designated revocation is returned along with the key that +// verified it. +func FindVerifiedDesignatedRevoke(keyring KeyRing, entity *Entity) (*packet.Signature, *Key) { + for _, sig := range entity.UnverifiedRevocations { + if sig.IssuerKeyId == nil { + continue + } + + issuerKeyId := *sig.IssuerKeyId + issuerFingerprint := sig.IssuerFingerprint + keys := keyring.KeysByIdUsage(issuerKeyId, issuerFingerprint, packet.KeyFlagSign) + if len(keys) == 0 { + continue + } + for _, key := range keys { + err := key.PublicKey.VerifyRevocationSignature(entity.PrimaryKey, sig) + if err == nil { + return sig, &key + } + } + } + + return nil, nil +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/compressed.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/compressed.go new file mode 100644 index 00000000..f023fe53 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/compressed.go @@ -0,0 +1,124 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "compress/bzip2" + "compress/flate" + "compress/zlib" + "io" + "strconv" + + "github.com/keybase/go-crypto/openpgp/errors" +) + +// Compressed represents a compressed OpenPGP packet. The decompressed contents +// will contain more OpenPGP packets. See RFC 4880, section 5.6. +type Compressed struct { + Body io.Reader +} + +const ( + NoCompression = flate.NoCompression + BestSpeed = flate.BestSpeed + BestCompression = flate.BestCompression + DefaultCompression = flate.DefaultCompression +) + +// CompressionConfig contains compressor configuration settings. +type CompressionConfig struct { + // Level is the compression level to use. It must be set to + // between -1 and 9, with -1 causing the compressor to use the + // default compression level, 0 causing the compressor to use + // no compression and 1 to 9 representing increasing (better, + // slower) compression levels. If Level is less than -1 or + // more then 9, a non-nil error will be returned during + // encryption. See the constants above for convenient common + // settings for Level. + Level int +} + +func (c *Compressed) parse(r io.Reader) error { + var buf [1]byte + _, err := readFull(r, buf[:]) + if err != nil { + return err + } + + switch buf[0] { + case 1: + c.Body = flate.NewReader(r) + case 2: + c.Body, err = zlib.NewReader(r) + case 3: + c.Body = bzip2.NewReader(r) + default: + err = errors.UnsupportedError("unknown compression algorithm: " + strconv.Itoa(int(buf[0]))) + } + + return err +} + +// compressedWriterCloser represents the serialized compression stream +// header and the compressor. Its Close() method ensures that both the +// compressor and serialized stream header are closed. Its Write() +// method writes to the compressor. +type compressedWriteCloser struct { + sh io.Closer // Stream Header + c io.WriteCloser // Compressor +} + +func (cwc compressedWriteCloser) Write(p []byte) (int, error) { + return cwc.c.Write(p) +} + +func (cwc compressedWriteCloser) Close() (err error) { + err = cwc.c.Close() + if err != nil { + return err + } + + return cwc.sh.Close() +} + +// SerializeCompressed serializes a compressed data packet to w and +// returns a WriteCloser to which the literal data packets themselves +// can be written and which MUST be closed on completion. If cc is +// nil, sensible defaults will be used to configure the compression +// algorithm. +func SerializeCompressed(w io.WriteCloser, algo CompressionAlgo, cc *CompressionConfig) (literaldata io.WriteCloser, err error) { + compressed, err := serializeStreamHeader(w, packetTypeCompressed) + if err != nil { + return + } + + _, err = compressed.Write([]byte{uint8(algo)}) + if err != nil { + return + } + + level := DefaultCompression + if cc != nil { + level = cc.Level + } + + var compressor io.WriteCloser + switch algo { + case CompressionZIP: + compressor, err = flate.NewWriter(compressed, level) + case CompressionZLIB: + compressor, err = zlib.NewWriterLevel(compressed, level) + default: + s := strconv.Itoa(int(algo)) + err = errors.UnsupportedError("Unsupported compression algorithm: " + s) + } + if err != nil { + return + } + + literaldata = compressedWriteCloser{compressed, compressor} + + return +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/config.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/config.go new file mode 100644 index 00000000..f4125e18 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/config.go @@ -0,0 +1,98 @@ +// Copyright 2012 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "crypto" + "crypto/rand" + "io" + "time" +) + +// Config collects a number of parameters along with sensible defaults. +// A nil *Config is valid and results in all default values. +type Config struct { + // Rand provides the source of entropy. + // If nil, the crypto/rand Reader is used. + Rand io.Reader + // DefaultHash is the default hash function to be used. + // If zero, SHA-256 is used. + DefaultHash crypto.Hash + // DefaultCipher is the cipher to be used. + // If zero, AES-128 is used. + DefaultCipher CipherFunction + // Time returns the current time as the number of seconds since the + // epoch. If Time is nil, time.Now is used. + Time func() time.Time + // DefaultCompressionAlgo is the compression algorithm to be + // applied to the plaintext before encryption. If zero, no + // compression is done. + DefaultCompressionAlgo CompressionAlgo + // CompressionConfig configures the compression settings. + CompressionConfig *CompressionConfig + // S2KCount is only used for symmetric encryption. It + // determines the strength of the passphrase stretching when + // the said passphrase is hashed to produce a key. S2KCount + // should be between 1024 and 65011712, inclusive. If Config + // is nil or S2KCount is 0, the value 65536 used. Not all + // values in the above range can be represented. S2KCount will + // be rounded up to the next representable value if it cannot + // be encoded exactly. When set, it is strongly encrouraged to + // use a value that is at least 65536. See RFC 4880 Section + // 3.7.1.3. + S2KCount int + // RSABits is the number of bits in new RSA keys made with NewEntity. + // If zero, then 2048 bit keys are created. + RSABits int + // ReuseSignatures tells us to reuse existing Signatures + // on serialized output. + ReuseSignaturesOnSerialize bool +} + +func (c *Config) Random() io.Reader { + if c == nil || c.Rand == nil { + return rand.Reader + } + return c.Rand +} + +func (c *Config) Hash() crypto.Hash { + if c == nil || uint(c.DefaultHash) == 0 { + return crypto.SHA256 + } + return c.DefaultHash +} + +func (c *Config) Cipher() CipherFunction { + if c == nil || uint8(c.DefaultCipher) == 0 { + return CipherAES128 + } + return c.DefaultCipher +} + +func (c *Config) Now() time.Time { + if c == nil || c.Time == nil { + return time.Now() + } + return c.Time() +} + +func (c *Config) Compression() CompressionAlgo { + if c == nil { + return CompressionNone + } + return c.DefaultCompressionAlgo +} + +func (c *Config) PasswordHashIterations() int { + if c == nil || c.S2KCount == 0 { + return 0 + } + return c.S2KCount +} + +func (c *Config) ReuseSignatures() bool { + return c != nil && c.ReuseSignaturesOnSerialize +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/ecdh.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/ecdh.go new file mode 100644 index 00000000..41de661d --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/ecdh.go @@ -0,0 +1,104 @@ +package packet + +import ( + "bytes" + "io" + "math/big" + + "github.com/keybase/go-crypto/openpgp/ecdh" + "github.com/keybase/go-crypto/openpgp/errors" + "github.com/keybase/go-crypto/openpgp/s2k" +) + +// ECDHKdfParams generates KDF parameters sequence for given +// PublicKey. See https://tools.ietf.org/html/rfc6637#section-8 +func ECDHKdfParams(pub *PublicKey) []byte { + buf := new(bytes.Buffer) + oid := pub.ec.oid + buf.WriteByte(byte(len(oid))) + buf.Write(oid) + buf.WriteByte(18) // ECDH TYPE + pub.ecdh.serialize(buf) + buf.WriteString("Anonymous Sender ") + buf.Write(pub.Fingerprint[:]) + return buf.Bytes() +} + +func decryptKeyECDH(priv *PrivateKey, X, Y *big.Int, C []byte) (out []byte, err error) { + ecdhpriv, ok := priv.PrivateKey.(*ecdh.PrivateKey) + if !ok { + return nil, errors.InvalidArgumentError("bad internal ECDH key") + } + + Sx := ecdhpriv.DecryptShared(X, Y) + + kdfParams := ECDHKdfParams(&priv.PublicKey) + hash, ok := s2k.HashIdToHash(byte(priv.ecdh.KdfHash)) + if !ok { + return nil, errors.InvalidArgumentError("invalid hash id in private key") + } + + key := ecdhpriv.KDF(Sx, kdfParams, hash) + keySize := CipherFunction(priv.ecdh.KdfAlgo).KeySize() + + decrypted, err := ecdh.AESKeyUnwrap(key[:keySize], C) + if err != nil { + return nil, err + } + + // We have to "read ahead" to discover real length of the + // encryption key and properly unpad buffer. + cipherFunc := CipherFunction(decrypted[0]) + // +3 bytes = 1-byte cipher id and checksum 2-byte checksum. + out = ecdh.UnpadBuffer(decrypted, cipherFunc.KeySize()+3) + if out == nil { + return nil, errors.InvalidArgumentError("invalid padding while ECDH") + } + return out, nil +} + +func serializeEncryptedKeyECDH(w io.Writer, rand io.Reader, header [10]byte, pub *PublicKey, keyBlock []byte) error { + ecdhpub := pub.PublicKey.(*ecdh.PublicKey) + kdfParams := ECDHKdfParams(pub) + + hash, ok := s2k.HashIdToHash(byte(pub.ecdh.KdfHash)) + if !ok { + return errors.InvalidArgumentError("invalid hash id in private key") + } + + kdfKeySize := CipherFunction(pub.ecdh.KdfAlgo).KeySize() + Vx, Vy, C, err := ecdhpub.Encrypt(rand, kdfParams, keyBlock, hash, kdfKeySize) + if err != nil { + return err + } + + mpis, mpiBitLen := ecdh.Marshal(ecdhpub.Curve, Vx, Vy) + + packetLen := len(header) /* header length in bytes */ + packetLen += 2 /* mpi length in bits */ + len(mpis) + packetLen += 1 /* ciphertext size in bytes */ + len(C) + + err = serializeHeader(w, packetTypeEncryptedKey, packetLen) + if err != nil { + return err + } + + _, err = w.Write(header[:]) + if err != nil { + return err + } + + _, err = w.Write([]byte{byte(mpiBitLen >> 8), byte(mpiBitLen)}) + if err != nil { + return err + } + + _, err = w.Write(mpis[:]) + if err != nil { + return err + } + + w.Write([]byte{byte(len(C))}) + w.Write(C[:]) + return nil +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/encrypted_key.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/encrypted_key.go new file mode 100644 index 00000000..58692ec8 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/encrypted_key.go @@ -0,0 +1,226 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "encoding/binary" + "io" + "math/big" + "strconv" + + "github.com/keybase/go-crypto/openpgp/ecdh" + "github.com/keybase/go-crypto/openpgp/elgamal" + "github.com/keybase/go-crypto/openpgp/errors" + "github.com/keybase/go-crypto/rsa" +) + +const encryptedKeyVersion = 3 + +// EncryptedKey represents a public-key encrypted session key. See RFC 4880, +// section 5.1. +type EncryptedKey struct { + KeyId uint64 + Algo PublicKeyAlgorithm + CipherFunc CipherFunction // only valid after a successful Decrypt + Key []byte // only valid after a successful Decrypt + + encryptedMPI1, encryptedMPI2 parsedMPI + ecdh_C []byte +} + +func (e *EncryptedKey) parse(r io.Reader) (err error) { + var buf [10]byte + _, err = readFull(r, buf[:]) + if err != nil { + return + } + if buf[0] != encryptedKeyVersion { + return errors.UnsupportedError("unknown EncryptedKey version " + strconv.Itoa(int(buf[0]))) + } + e.KeyId = binary.BigEndian.Uint64(buf[1:9]) + e.Algo = PublicKeyAlgorithm(buf[9]) + switch e.Algo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly: + e.encryptedMPI1.bytes, e.encryptedMPI1.bitLength, err = readMPI(r) + case PubKeyAlgoElGamal: + e.encryptedMPI1.bytes, e.encryptedMPI1.bitLength, err = readMPI(r) + if err != nil { + return + } + e.encryptedMPI2.bytes, e.encryptedMPI2.bitLength, err = readMPI(r) + case PubKeyAlgoECDH: + e.encryptedMPI1.bytes, e.encryptedMPI1.bitLength, err = readMPI(r) + if err != nil { + return err + } + _, err = readFull(r, buf[:1]) // read C len (1 byte) + if err != nil { + return err + } + e.ecdh_C = make([]byte, int(buf[0])) + _, err = readFull(r, e.ecdh_C) + } + + if err != nil { + return err + } + + _, err = consumeAll(r) + return err +} + +func checksumKeyMaterial(key []byte) uint16 { + var checksum uint16 + for _, v := range key { + checksum += uint16(v) + } + return checksum +} + +// Decrypt decrypts an encrypted session key with the given private key. The +// private key must have been decrypted first. +// If config is nil, sensible defaults will be used. +func (e *EncryptedKey) Decrypt(priv *PrivateKey, config *Config) error { + var err error + var b []byte + + // TODO(agl): use session key decryption routines here to avoid + // padding oracle attacks. + switch priv.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly: + b, err = rsa.DecryptPKCS1v15(config.Random(), priv.PrivateKey.(*rsa.PrivateKey), e.encryptedMPI1.bytes) + case PubKeyAlgoElGamal: + c1 := new(big.Int).SetBytes(e.encryptedMPI1.bytes) + c2 := new(big.Int).SetBytes(e.encryptedMPI2.bytes) + b, err = elgamal.Decrypt(priv.PrivateKey.(*elgamal.PrivateKey), c1, c2) + case PubKeyAlgoECDH: + // Note: Unmarshal checks if point is on the curve. + c1, c2 := ecdh.Unmarshal(priv.PrivateKey.(*ecdh.PrivateKey).Curve, e.encryptedMPI1.bytes) + if c1 == nil { + return errors.InvalidArgumentError("failed to parse EC point for encryption key") + } + b, err = decryptKeyECDH(priv, c1, c2, e.ecdh_C) + default: + err = errors.InvalidArgumentError("cannot decrypted encrypted session key with private key of type " + strconv.Itoa(int(priv.PubKeyAlgo))) + } + + if err != nil { + return err + } + + e.CipherFunc = CipherFunction(b[0]) + e.Key = b[1 : len(b)-2] + expectedChecksum := uint16(b[len(b)-2])<<8 | uint16(b[len(b)-1]) + checksum := checksumKeyMaterial(e.Key) + if checksum != expectedChecksum { + return errors.StructuralError("EncryptedKey checksum incorrect") + } + + return nil +} + +// Serialize writes the encrypted key packet, e, to w. +func (e *EncryptedKey) Serialize(w io.Writer) error { + var mpiLen int + switch e.Algo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly: + mpiLen = 2 + len(e.encryptedMPI1.bytes) + case PubKeyAlgoElGamal: + mpiLen = 2 + len(e.encryptedMPI1.bytes) + 2 + len(e.encryptedMPI2.bytes) + default: + return errors.InvalidArgumentError("don't know how to serialize encrypted key type " + strconv.Itoa(int(e.Algo))) + } + + serializeHeader(w, packetTypeEncryptedKey, 1 /* version */ +8 /* key id */ +1 /* algo */ +mpiLen) + + w.Write([]byte{encryptedKeyVersion}) + binary.Write(w, binary.BigEndian, e.KeyId) + w.Write([]byte{byte(e.Algo)}) + + switch e.Algo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly: + writeMPIs(w, e.encryptedMPI1) + case PubKeyAlgoElGamal: + writeMPIs(w, e.encryptedMPI1, e.encryptedMPI2) + default: + panic("internal error") + } + + return nil +} + +// SerializeEncryptedKey serializes an encrypted key packet to w that contains +// key, encrypted to pub. +// If config is nil, sensible defaults will be used. +func SerializeEncryptedKey(w io.Writer, pub *PublicKey, cipherFunc CipherFunction, key []byte, config *Config) error { + var buf [10]byte + buf[0] = encryptedKeyVersion + binary.BigEndian.PutUint64(buf[1:9], pub.KeyId) + buf[9] = byte(pub.PubKeyAlgo) + + keyBlock := make([]byte, 1 /* cipher type */ +len(key)+2 /* checksum */) + keyBlock[0] = byte(cipherFunc) + copy(keyBlock[1:], key) + checksum := checksumKeyMaterial(key) + keyBlock[1+len(key)] = byte(checksum >> 8) + keyBlock[1+len(key)+1] = byte(checksum) + + switch pub.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly: + return serializeEncryptedKeyRSA(w, config.Random(), buf, pub.PublicKey.(*rsa.PublicKey), keyBlock) + case PubKeyAlgoElGamal: + return serializeEncryptedKeyElGamal(w, config.Random(), buf, pub.PublicKey.(*elgamal.PublicKey), keyBlock) + case PubKeyAlgoECDH: + return serializeEncryptedKeyECDH(w, config.Random(), buf, pub, keyBlock) + case PubKeyAlgoDSA, PubKeyAlgoRSASignOnly: + return errors.InvalidArgumentError("cannot encrypt to public key of type " + strconv.Itoa(int(pub.PubKeyAlgo))) + } + + return errors.UnsupportedError("encrypting a key to public key of type " + strconv.Itoa(int(pub.PubKeyAlgo))) +} + +func serializeEncryptedKeyRSA(w io.Writer, rand io.Reader, header [10]byte, pub *rsa.PublicKey, keyBlock []byte) error { + cipherText, err := rsa.EncryptPKCS1v15(rand, pub, keyBlock) + if err != nil { + return errors.InvalidArgumentError("RSA encryption failed: " + err.Error()) + } + + packetLen := 10 /* header length */ + 2 /* mpi size */ + len(cipherText) + + err = serializeHeader(w, packetTypeEncryptedKey, packetLen) + if err != nil { + return err + } + _, err = w.Write(header[:]) + if err != nil { + return err + } + return writeMPI(w, 8*uint16(len(cipherText)), cipherText) +} + +func serializeEncryptedKeyElGamal(w io.Writer, rand io.Reader, header [10]byte, pub *elgamal.PublicKey, keyBlock []byte) error { + c1, c2, err := elgamal.Encrypt(rand, pub, keyBlock) + if err != nil { + return errors.InvalidArgumentError("ElGamal encryption failed: " + err.Error()) + } + + packetLen := 10 /* header length */ + packetLen += 2 /* mpi size */ + (c1.BitLen()+7)/8 + packetLen += 2 /* mpi size */ + (c2.BitLen()+7)/8 + + err = serializeHeader(w, packetTypeEncryptedKey, packetLen) + if err != nil { + return err + } + _, err = w.Write(header[:]) + if err != nil { + return err + } + err = writeBig(w, c1) + if err != nil { + return err + } + return writeBig(w, c2) +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/literal.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/literal.go new file mode 100644 index 00000000..1a9ec6e5 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/literal.go @@ -0,0 +1,89 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "encoding/binary" + "io" +) + +// LiteralData represents an encrypted file. See RFC 4880, section 5.9. +type LiteralData struct { + IsBinary bool + FileName string + Time uint32 // Unix epoch time. Either creation time or modification time. 0 means undefined. + Body io.Reader +} + +// ForEyesOnly returns whether the contents of the LiteralData have been marked +// as especially sensitive. +func (l *LiteralData) ForEyesOnly() bool { + return l.FileName == "_CONSOLE" +} + +func (l *LiteralData) parse(r io.Reader) (err error) { + var buf [256]byte + + _, err = readFull(r, buf[:2]) + if err != nil { + return + } + + l.IsBinary = buf[0] == 'b' + fileNameLen := int(buf[1]) + + _, err = readFull(r, buf[:fileNameLen]) + if err != nil { + return + } + + l.FileName = string(buf[:fileNameLen]) + + _, err = readFull(r, buf[:4]) + if err != nil { + return + } + + l.Time = binary.BigEndian.Uint32(buf[:4]) + l.Body = r + return +} + +// SerializeLiteral serializes a literal data packet to w and returns a +// WriteCloser to which the data itself can be written and which MUST be closed +// on completion. The fileName is truncated to 255 bytes. +func SerializeLiteral(w io.WriteCloser, isBinary bool, fileName string, time uint32) (plaintext io.WriteCloser, err error) { + var buf [4]byte + buf[0] = 't' + if isBinary { + buf[0] = 'b' + } + if len(fileName) > 255 { + fileName = fileName[:255] + } + buf[1] = byte(len(fileName)) + + inner, err := serializeStreamHeader(w, packetTypeLiteralData) + if err != nil { + return + } + + _, err = inner.Write(buf[:2]) + if err != nil { + return + } + _, err = inner.Write([]byte(fileName)) + if err != nil { + return + } + binary.BigEndian.PutUint32(buf[:], time) + _, err = inner.Write(buf[:]) + if err != nil { + return + } + + plaintext = inner + return +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/ocfb.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/ocfb.go new file mode 100644 index 00000000..ce2a33a5 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/ocfb.go @@ -0,0 +1,143 @@ +// Copyright 2010 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// OpenPGP CFB Mode. http://tools.ietf.org/html/rfc4880#section-13.9 + +package packet + +import ( + "crypto/cipher" +) + +type ocfbEncrypter struct { + b cipher.Block + fre []byte + outUsed int +} + +// An OCFBResyncOption determines if the "resynchronization step" of OCFB is +// performed. +type OCFBResyncOption bool + +const ( + OCFBResync OCFBResyncOption = true + OCFBNoResync OCFBResyncOption = false +) + +// NewOCFBEncrypter returns a cipher.Stream which encrypts data with OpenPGP's +// cipher feedback mode using the given cipher.Block, and an initial amount of +// ciphertext. randData must be random bytes and be the same length as the +// cipher.Block's block size. Resync determines if the "resynchronization step" +// from RFC 4880, 13.9 step 7 is performed. Different parts of OpenPGP vary on +// this point. +func NewOCFBEncrypter(block cipher.Block, randData []byte, resync OCFBResyncOption) (cipher.Stream, []byte) { + blockSize := block.BlockSize() + if len(randData) != blockSize { + return nil, nil + } + + x := &ocfbEncrypter{ + b: block, + fre: make([]byte, blockSize), + outUsed: 0, + } + prefix := make([]byte, blockSize+2) + + block.Encrypt(x.fre, x.fre) + for i := 0; i < blockSize; i++ { + prefix[i] = randData[i] ^ x.fre[i] + } + + block.Encrypt(x.fre, prefix[:blockSize]) + prefix[blockSize] = x.fre[0] ^ randData[blockSize-2] + prefix[blockSize+1] = x.fre[1] ^ randData[blockSize-1] + + if resync { + block.Encrypt(x.fre, prefix[2:]) + } else { + x.fre[0] = prefix[blockSize] + x.fre[1] = prefix[blockSize+1] + x.outUsed = 2 + } + return x, prefix +} + +func (x *ocfbEncrypter) XORKeyStream(dst, src []byte) { + for i := 0; i < len(src); i++ { + if x.outUsed == len(x.fre) { + x.b.Encrypt(x.fre, x.fre) + x.outUsed = 0 + } + + x.fre[x.outUsed] ^= src[i] + dst[i] = x.fre[x.outUsed] + x.outUsed++ + } +} + +type ocfbDecrypter struct { + b cipher.Block + fre []byte + outUsed int +} + +// NewOCFBDecrypter returns a cipher.Stream which decrypts data with OpenPGP's +// cipher feedback mode using the given cipher.Block. Prefix must be the first +// blockSize + 2 bytes of the ciphertext, where blockSize is the cipher.Block's +// block size. If an incorrect key is detected then nil is returned. On +// successful exit, blockSize+2 bytes of decrypted data are written into +// prefix. Resync determines if the "resynchronization step" from RFC 4880, +// 13.9 step 7 is performed. Different parts of OpenPGP vary on this point. +func NewOCFBDecrypter(block cipher.Block, prefix []byte, resync OCFBResyncOption) cipher.Stream { + blockSize := block.BlockSize() + if len(prefix) != blockSize+2 { + return nil + } + + x := &ocfbDecrypter{ + b: block, + fre: make([]byte, blockSize), + outUsed: 0, + } + prefixCopy := make([]byte, len(prefix)) + copy(prefixCopy, prefix) + + block.Encrypt(x.fre, x.fre) + for i := 0; i < blockSize; i++ { + prefixCopy[i] ^= x.fre[i] + } + + block.Encrypt(x.fre, prefix[:blockSize]) + prefixCopy[blockSize] ^= x.fre[0] + prefixCopy[blockSize+1] ^= x.fre[1] + + if prefixCopy[blockSize-2] != prefixCopy[blockSize] || + prefixCopy[blockSize-1] != prefixCopy[blockSize+1] { + return nil + } + + if resync { + block.Encrypt(x.fre, prefix[2:]) + } else { + x.fre[0] = prefix[blockSize] + x.fre[1] = prefix[blockSize+1] + x.outUsed = 2 + } + copy(prefix, prefixCopy) + return x +} + +func (x *ocfbDecrypter) XORKeyStream(dst, src []byte) { + for i := 0; i < len(src); i++ { + if x.outUsed == len(x.fre) { + x.b.Encrypt(x.fre, x.fre) + x.outUsed = 0 + } + + c := src[i] + dst[i] = x.fre[x.outUsed] ^ src[i] + x.fre[x.outUsed] = c + x.outUsed++ + } +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/one_pass_signature.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/one_pass_signature.go new file mode 100644 index 00000000..af404bb1 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/one_pass_signature.go @@ -0,0 +1,74 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "crypto" + "encoding/binary" + "io" + "strconv" + + "github.com/keybase/go-crypto/openpgp/errors" + "github.com/keybase/go-crypto/openpgp/s2k" +) + +// OnePassSignature represents a one-pass signature packet. See RFC 4880, +// section 5.4. +type OnePassSignature struct { + SigType SignatureType + Hash crypto.Hash + PubKeyAlgo PublicKeyAlgorithm + KeyId uint64 + IsLast bool +} + +const onePassSignatureVersion = 3 + +func (ops *OnePassSignature) parse(r io.Reader) (err error) { + var buf [13]byte + + _, err = readFull(r, buf[:]) + if err != nil { + return + } + if buf[0] != onePassSignatureVersion { + err = errors.UnsupportedError("one-pass-signature packet version " + strconv.Itoa(int(buf[0]))) + } + + var ok bool + ops.Hash, ok = s2k.HashIdToHash(buf[2]) + if !ok { + return errors.UnsupportedError("hash function: " + strconv.Itoa(int(buf[2]))) + } + + ops.SigType = SignatureType(buf[1]) + ops.PubKeyAlgo = PublicKeyAlgorithm(buf[3]) + ops.KeyId = binary.BigEndian.Uint64(buf[4:12]) + ops.IsLast = buf[12] != 0 + return +} + +// Serialize marshals the given OnePassSignature to w. +func (ops *OnePassSignature) Serialize(w io.Writer) error { + var buf [13]byte + buf[0] = onePassSignatureVersion + buf[1] = uint8(ops.SigType) + var ok bool + buf[2], ok = s2k.HashToHashId(ops.Hash) + if !ok { + return errors.UnsupportedError("hash type: " + strconv.Itoa(int(ops.Hash))) + } + buf[3] = uint8(ops.PubKeyAlgo) + binary.BigEndian.PutUint64(buf[4:12], ops.KeyId) + if ops.IsLast { + buf[12] = 1 + } + + if err := serializeHeader(w, packetTypeOnePassSignature, len(buf)); err != nil { + return err + } + _, err := w.Write(buf[:]) + return err +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/opaque.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/opaque.go new file mode 100644 index 00000000..cdeea012 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/opaque.go @@ -0,0 +1,162 @@ +// Copyright 2012 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "bytes" + "io" + "io/ioutil" + + "github.com/keybase/go-crypto/openpgp/errors" +) + +// OpaquePacket represents an OpenPGP packet as raw, unparsed data. This is +// useful for splitting and storing the original packet contents separately, +// handling unsupported packet types or accessing parts of the packet not yet +// implemented by this package. +type OpaquePacket struct { + // Packet type + Tag uint8 + // Reason why the packet was parsed opaquely + Reason error + // Binary contents of the packet data + Contents []byte +} + +func (op *OpaquePacket) parse(r io.Reader) (err error) { + op.Contents, err = ioutil.ReadAll(r) + return +} + +// Serialize marshals the packet to a writer in its original form, including +// the packet header. +func (op *OpaquePacket) Serialize(w io.Writer) (err error) { + err = serializeHeader(w, packetType(op.Tag), len(op.Contents)) + if err == nil { + _, err = w.Write(op.Contents) + } + return +} + +// Parse attempts to parse the opaque contents into a structure supported by +// this package. If the packet is not known then the result will be another +// OpaquePacket. +func (op *OpaquePacket) Parse() (p Packet, err error) { + hdr := bytes.NewBuffer(nil) + err = serializeHeader(hdr, packetType(op.Tag), len(op.Contents)) + if err != nil { + op.Reason = err + return op, err + } + p, err = Read(io.MultiReader(hdr, bytes.NewBuffer(op.Contents))) + if err != nil { + op.Reason = err + p = op + } + return +} + +// OpaqueReader reads OpaquePackets from an io.Reader. +type OpaqueReader struct { + r io.Reader +} + +func NewOpaqueReader(r io.Reader) *OpaqueReader { + return &OpaqueReader{r: r} +} + +// Read the next OpaquePacket. +func (or *OpaqueReader) Next() (op *OpaquePacket, err error) { + tag, _, contents, err := readHeader(or.r) + if err != nil { + return + } + op = &OpaquePacket{Tag: uint8(tag), Reason: err} + err = op.parse(contents) + if err != nil { + consumeAll(contents) + } + return +} + +// OpaqueSubpacket represents an unparsed OpenPGP subpacket, +// as found in signature and user attribute packets. +type OpaqueSubpacket struct { + SubType uint8 + Contents []byte +} + +// OpaqueSubpackets extracts opaque, unparsed OpenPGP subpackets from +// their byte representation. +func OpaqueSubpackets(contents []byte) (result []*OpaqueSubpacket, err error) { + var ( + subHeaderLen int + subPacket *OpaqueSubpacket + ) + for len(contents) > 0 { + subHeaderLen, subPacket, err = nextSubpacket(contents) + if err != nil { + break + } + result = append(result, subPacket) + contents = contents[subHeaderLen+len(subPacket.Contents):] + } + return +} + +func nextSubpacket(contents []byte) (subHeaderLen int, subPacket *OpaqueSubpacket, err error) { + // RFC 4880, section 5.2.3.1 + var subLen uint32 + if len(contents) < 1 { + goto Truncated + } + subPacket = &OpaqueSubpacket{} + switch { + case contents[0] < 192: + subHeaderLen = 2 // 1 length byte, 1 subtype byte + if len(contents) < subHeaderLen { + goto Truncated + } + subLen = uint32(contents[0]) + contents = contents[1:] + case contents[0] < 255: + subHeaderLen = 3 // 2 length bytes, 1 subtype + if len(contents) < subHeaderLen { + goto Truncated + } + subLen = uint32(contents[0]-192)<<8 + uint32(contents[1]) + 192 + contents = contents[2:] + default: + subHeaderLen = 6 // 5 length bytes, 1 subtype + if len(contents) < subHeaderLen { + goto Truncated + } + subLen = uint32(contents[1])<<24 | + uint32(contents[2])<<16 | + uint32(contents[3])<<8 | + uint32(contents[4]) + contents = contents[5:] + } + if subLen > uint32(len(contents)) || subLen == 0 { + goto Truncated + } + subPacket.SubType = contents[0] + subPacket.Contents = contents[1:subLen] + return +Truncated: + err = errors.StructuralError("subpacket truncated") + return +} + +func (osp *OpaqueSubpacket) Serialize(w io.Writer) (err error) { + buf := make([]byte, 6) + n := serializeSubpacketLength(buf, len(osp.Contents)+1) + buf[n] = osp.SubType + if _, err = w.Write(buf[:n+1]); err != nil { + return + } + _, err = w.Write(osp.Contents) + return +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/packet.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/packet.go new file mode 100644 index 00000000..48854436 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/packet.go @@ -0,0 +1,563 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package packet implements parsing and serialization of OpenPGP packets, as +// specified in RFC 4880. +package packet // import "github.com/keybase/go-crypto/openpgp/packet" + +import ( + "bufio" + "crypto/aes" + "crypto/cipher" + "crypto/des" + "crypto/elliptic" + "io" + "math/big" + + "github.com/keybase/go-crypto/cast5" + "github.com/keybase/go-crypto/openpgp/errors" +) + +// readFull is the same as io.ReadFull except that reading zero bytes returns +// ErrUnexpectedEOF rather than EOF. +func readFull(r io.Reader, buf []byte) (n int, err error) { + n, err = io.ReadFull(r, buf) + if err == io.EOF { + err = io.ErrUnexpectedEOF + } + return +} + +// readLength reads an OpenPGP length from r. See RFC 4880, section 4.2.2. +func readLength(r io.Reader) (length int64, isPartial bool, err error) { + var buf [4]byte + _, err = readFull(r, buf[:1]) + if err != nil { + return + } + switch { + case buf[0] < 192: + length = int64(buf[0]) + case buf[0] < 224: + length = int64(buf[0]-192) << 8 + _, err = readFull(r, buf[0:1]) + if err != nil { + return + } + length += int64(buf[0]) + 192 + case buf[0] < 255: + length = int64(1) << (buf[0] & 0x1f) + isPartial = true + default: + _, err = readFull(r, buf[0:4]) + if err != nil { + return + } + length = int64(buf[0])<<24 | + int64(buf[1])<<16 | + int64(buf[2])<<8 | + int64(buf[3]) + } + return +} + +// partialLengthReader wraps an io.Reader and handles OpenPGP partial lengths. +// The continuation lengths are parsed and removed from the stream and EOF is +// returned at the end of the packet. See RFC 4880, section 4.2.2.4. +type partialLengthReader struct { + r io.Reader + remaining int64 + isPartial bool +} + +func (r *partialLengthReader) Read(p []byte) (n int, err error) { + for r.remaining == 0 { + if !r.isPartial { + return 0, io.EOF + } + r.remaining, r.isPartial, err = readLength(r.r) + if err != nil { + return 0, err + } + } + + toRead := int64(len(p)) + if toRead > r.remaining { + toRead = r.remaining + } + + n, err = r.r.Read(p[:int(toRead)]) + r.remaining -= int64(n) + if n < int(toRead) && err == io.EOF { + err = io.ErrUnexpectedEOF + } + return +} + +// partialLengthWriter writes a stream of data using OpenPGP partial lengths. +// See RFC 4880, section 4.2.2.4. +type partialLengthWriter struct { + w io.WriteCloser + lengthByte [1]byte +} + +func (w *partialLengthWriter) Write(p []byte) (n int, err error) { + for len(p) > 0 { + for power := uint(14); power < 32; power-- { + l := 1 << power + if len(p) >= l { + w.lengthByte[0] = 224 + uint8(power) + _, err = w.w.Write(w.lengthByte[:]) + if err != nil { + return + } + var m int + m, err = w.w.Write(p[:l]) + n += m + if err != nil { + return + } + p = p[l:] + break + } + } + } + return +} + +func (w *partialLengthWriter) Close() error { + w.lengthByte[0] = 0 + _, err := w.w.Write(w.lengthByte[:]) + if err != nil { + return err + } + return w.w.Close() +} + +// A spanReader is an io.LimitReader, but it returns ErrUnexpectedEOF if the +// underlying Reader returns EOF before the limit has been reached. +type spanReader struct { + r io.Reader + n int64 +} + +func (l *spanReader) Read(p []byte) (n int, err error) { + if l.n <= 0 { + return 0, io.EOF + } + if int64(len(p)) > l.n { + p = p[0:l.n] + } + n, err = l.r.Read(p) + l.n -= int64(n) + if l.n > 0 && err == io.EOF { + err = io.ErrUnexpectedEOF + } + return +} + +// readHeader parses a packet header and returns an io.Reader which will return +// the contents of the packet. See RFC 4880, section 4.2. +func readHeader(r io.Reader) (tag packetType, length int64, contents io.Reader, err error) { + var buf [4]byte + _, err = io.ReadFull(r, buf[:1]) + if err != nil { + return + } + if buf[0]&0x80 == 0 { + err = errors.StructuralError("tag byte does not have MSB set") + return + } + if buf[0]&0x40 == 0 { + // Old format packet + tag = packetType((buf[0] & 0x3f) >> 2) + lengthType := buf[0] & 3 + if lengthType == 3 { + length = -1 + contents = r + return + } + lengthBytes := 1 << lengthType + _, err = readFull(r, buf[0:lengthBytes]) + if err != nil { + return + } + for i := 0; i < lengthBytes; i++ { + length <<= 8 + length |= int64(buf[i]) + } + contents = &spanReader{r, length} + return + } + + // New format packet + tag = packetType(buf[0] & 0x3f) + length, isPartial, err := readLength(r) + if err != nil { + return + } + if isPartial { + contents = &partialLengthReader{ + remaining: length, + isPartial: true, + r: r, + } + length = -1 + } else { + contents = &spanReader{r, length} + } + return +} + +// serializeHeader writes an OpenPGP packet header to w. See RFC 4880, section +// 4.2. +func serializeHeader(w io.Writer, ptype packetType, length int) (err error) { + var buf [6]byte + var n int + + buf[0] = 0x80 | 0x40 | byte(ptype) + if length < 192 { + buf[1] = byte(length) + n = 2 + } else if length < 8384 { + length -= 192 + buf[1] = 192 + byte(length>>8) + buf[2] = byte(length) + n = 3 + } else { + buf[1] = 255 + buf[2] = byte(length >> 24) + buf[3] = byte(length >> 16) + buf[4] = byte(length >> 8) + buf[5] = byte(length) + n = 6 + } + + _, err = w.Write(buf[:n]) + return +} + +// serializeStreamHeader writes an OpenPGP packet header to w where the +// length of the packet is unknown. It returns a io.WriteCloser which can be +// used to write the contents of the packet. See RFC 4880, section 4.2. +func serializeStreamHeader(w io.WriteCloser, ptype packetType) (out io.WriteCloser, err error) { + var buf [1]byte + buf[0] = 0x80 | 0x40 | byte(ptype) + _, err = w.Write(buf[:]) + if err != nil { + return + } + out = &partialLengthWriter{w: w} + return +} + +// Packet represents an OpenPGP packet. Users are expected to try casting +// instances of this interface to specific packet types. +type Packet interface { + parse(io.Reader) error +} + +// consumeAll reads from the given Reader until error, returning the number of +// bytes read. +func consumeAll(r io.Reader) (n int64, err error) { + var m int + var buf [1024]byte + + for { + m, err = r.Read(buf[:]) + n += int64(m) + if err == io.EOF { + err = nil + return + } + if err != nil { + return + } + } + + panic("unreachable") +} + +// packetType represents the numeric ids of the different OpenPGP packet types. See +// http://www.iana.org/assignments/pgp-parameters/pgp-parameters.xhtml#pgp-parameters-2 +type packetType uint8 + +const ( + packetTypeEncryptedKey packetType = 1 + packetTypeSignature packetType = 2 + packetTypeSymmetricKeyEncrypted packetType = 3 + packetTypeOnePassSignature packetType = 4 + packetTypePrivateKey packetType = 5 + packetTypePublicKey packetType = 6 + packetTypePrivateSubkey packetType = 7 + packetTypeCompressed packetType = 8 + packetTypeSymmetricallyEncrypted packetType = 9 + packetTypeLiteralData packetType = 11 + packetTypeUserId packetType = 13 + packetTypePublicSubkey packetType = 14 + packetTypeUserAttribute packetType = 17 + packetTypeSymmetricallyEncryptedMDC packetType = 18 +) + +// peekVersion detects the version of a public key packet about to +// be read. A bufio.Reader at the original position of the io.Reader +// is returned. +func peekVersion(r io.Reader) (bufr *bufio.Reader, ver byte, err error) { + bufr = bufio.NewReader(r) + var verBuf []byte + if verBuf, err = bufr.Peek(1); err != nil { + return + } + ver = verBuf[0] + return +} + +// Read reads a single OpenPGP packet from the given io.Reader. If there is an +// error parsing a packet, the whole packet is consumed from the input. +func Read(r io.Reader) (p Packet, err error) { + tag, _, contents, err := readHeader(r) + if err != nil { + return + } + + switch tag { + case packetTypeEncryptedKey: + p = new(EncryptedKey) + case packetTypeSignature: + var version byte + // Detect signature version + if contents, version, err = peekVersion(contents); err != nil { + return + } + if version < 4 { + p = new(SignatureV3) + } else { + p = new(Signature) + } + case packetTypeSymmetricKeyEncrypted: + p = new(SymmetricKeyEncrypted) + case packetTypeOnePassSignature: + p = new(OnePassSignature) + case packetTypePrivateKey, packetTypePrivateSubkey: + pk := new(PrivateKey) + if tag == packetTypePrivateSubkey { + pk.IsSubkey = true + } + p = pk + case packetTypePublicKey, packetTypePublicSubkey: + var version byte + if contents, version, err = peekVersion(contents); err != nil { + return + } + isSubkey := tag == packetTypePublicSubkey + if version < 4 { + p = &PublicKeyV3{IsSubkey: isSubkey} + } else { + p = &PublicKey{IsSubkey: isSubkey} + } + case packetTypeCompressed: + p = new(Compressed) + case packetTypeSymmetricallyEncrypted: + p = new(SymmetricallyEncrypted) + case packetTypeLiteralData: + p = new(LiteralData) + case packetTypeUserId: + p = new(UserId) + case packetTypeUserAttribute: + p = new(UserAttribute) + case packetTypeSymmetricallyEncryptedMDC: + se := new(SymmetricallyEncrypted) + se.MDC = true + p = se + default: + err = errors.UnknownPacketTypeError(tag) + } + if p != nil { + err = p.parse(contents) + } + if err != nil { + consumeAll(contents) + } + return +} + +// SignatureType represents the different semantic meanings of an OpenPGP +// signature. See RFC 4880, section 5.2.1. +type SignatureType uint8 + +const ( + SigTypeBinary SignatureType = 0 + SigTypeText = 1 + SigTypeGenericCert = 0x10 + SigTypePersonaCert = 0x11 + SigTypeCasualCert = 0x12 + SigTypePositiveCert = 0x13 + SigTypeSubkeyBinding = 0x18 + SigTypePrimaryKeyBinding = 0x19 + SigTypeDirectSignature = 0x1F + SigTypeKeyRevocation = 0x20 + SigTypeSubkeyRevocation = 0x28 + SigTypeIdentityRevocation = 0x30 +) + +// PublicKeyAlgorithm represents the different public key system specified for +// OpenPGP. See +// http://www.iana.org/assignments/pgp-parameters/pgp-parameters.xhtml#pgp-parameters-12 +type PublicKeyAlgorithm uint8 + +const ( + PubKeyAlgoRSA PublicKeyAlgorithm = 1 + PubKeyAlgoRSAEncryptOnly PublicKeyAlgorithm = 2 + PubKeyAlgoRSASignOnly PublicKeyAlgorithm = 3 + PubKeyAlgoElGamal PublicKeyAlgorithm = 16 + PubKeyAlgoDSA PublicKeyAlgorithm = 17 + // RFC 6637, Section 5. + PubKeyAlgoECDH PublicKeyAlgorithm = 18 + PubKeyAlgoECDSA PublicKeyAlgorithm = 19 + // RFC -1 + PubKeyAlgoEdDSA PublicKeyAlgorithm = 22 +) + +// CanEncrypt returns true if it's possible to encrypt a message to a public +// key of the given type. +func (pka PublicKeyAlgorithm) CanEncrypt() bool { + switch pka { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoElGamal, PubKeyAlgoECDH: + return true + } + return false +} + +// CanSign returns true if it's possible for a public key of the given type to +// sign a message. +func (pka PublicKeyAlgorithm) CanSign() bool { + switch pka { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly, PubKeyAlgoDSA, PubKeyAlgoECDSA, PubKeyAlgoEdDSA: + return true + } + return false +} + +// CipherFunction represents the different block ciphers specified for OpenPGP. See +// http://www.iana.org/assignments/pgp-parameters/pgp-parameters.xhtml#pgp-parameters-13 +type CipherFunction uint8 + +const ( + Cipher3DES CipherFunction = 2 + CipherCAST5 CipherFunction = 3 + CipherAES128 CipherFunction = 7 + CipherAES192 CipherFunction = 8 + CipherAES256 CipherFunction = 9 +) + +// KeySize returns the key size, in bytes, of cipher. +func (cipher CipherFunction) KeySize() int { + switch cipher { + case Cipher3DES: + return 24 + case CipherCAST5: + return cast5.KeySize + case CipherAES128: + return 16 + case CipherAES192: + return 24 + case CipherAES256: + return 32 + } + return 0 +} + +// blockSize returns the block size, in bytes, of cipher. +func (cipher CipherFunction) blockSize() int { + switch cipher { + case Cipher3DES: + return des.BlockSize + case CipherCAST5: + return 8 + case CipherAES128, CipherAES192, CipherAES256: + return 16 + } + return 0 +} + +// new returns a fresh instance of the given cipher. +func (cipher CipherFunction) new(key []byte) (block cipher.Block) { + switch cipher { + case Cipher3DES: + block, _ = des.NewTripleDESCipher(key) + case CipherCAST5: + block, _ = cast5.NewCipher(key) + case CipherAES128, CipherAES192, CipherAES256: + block, _ = aes.NewCipher(key) + } + return +} + +// readMPI reads a big integer from r. The bit length returned is the bit +// length that was specified in r. This is preserved so that the integer can be +// reserialized exactly. +func readMPI(r io.Reader) (mpi []byte, bitLength uint16, err error) { + var buf [2]byte + _, err = readFull(r, buf[0:]) + if err != nil { + return + } + bitLength = uint16(buf[0])<<8 | uint16(buf[1]) + numBytes := (int(bitLength) + 7) / 8 + mpi = make([]byte, numBytes) + _, err = readFull(r, mpi) + return +} + +// mpiLength returns the length of the given *big.Int when serialized as an +// MPI. +func mpiLength(n *big.Int) (mpiLengthInBytes int) { + mpiLengthInBytes = 2 /* MPI length */ + mpiLengthInBytes += (n.BitLen() + 7) / 8 + return +} + +// writeMPI serializes a big integer to w. +func writeMPI(w io.Writer, bitLength uint16, mpiBytes []byte) (err error) { + _, err = w.Write([]byte{byte(bitLength >> 8), byte(bitLength)}) + if err == nil { + _, err = w.Write(mpiBytes) + } + return +} + +func WritePaddedBigInt(w io.Writer, length int, X *big.Int) (n int, err error) { + bytes := X.Bytes() + n1, err := w.Write(make([]byte, length-len(bytes))) + if err != nil { + return n1, err + } + n2, err := w.Write(bytes) + if err != nil { + return n2, err + } + return (n1 + n2), err +} + +// Minimum number of bytes to fit the curve coordinates. All +// coordinates have to be 0-padded to this length. +func mpiPointByteLength(curve elliptic.Curve) int { + return (curve.Params().P.BitLen() + 7) / 8 +} + +// writeBig serializes a *big.Int to w. +func writeBig(w io.Writer, i *big.Int) error { + return writeMPI(w, uint16(i.BitLen()), i.Bytes()) +} + +// CompressionAlgo Represents the different compression algorithms +// supported by OpenPGP (except for BZIP2, which is not currently +// supported). See Section 9.3 of RFC 4880. +type CompressionAlgo uint8 + +const ( + CompressionNone CompressionAlgo = 0 + CompressionZIP CompressionAlgo = 1 + CompressionZLIB CompressionAlgo = 2 +) diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/private_key.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/private_key.go new file mode 100644 index 00000000..27974e78 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/private_key.go @@ -0,0 +1,550 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "bytes" + "crypto/cipher" + "crypto/dsa" + "crypto/ecdsa" + "crypto/sha1" + "fmt" + "io" + "io/ioutil" + "math/big" + "strconv" + "time" + + "github.com/keybase/go-crypto/ed25519" + "github.com/keybase/go-crypto/openpgp/ecdh" + "github.com/keybase/go-crypto/openpgp/elgamal" + "github.com/keybase/go-crypto/openpgp/errors" + "github.com/keybase/go-crypto/openpgp/s2k" + "github.com/keybase/go-crypto/rsa" +) + +// PrivateKey represents a possibly encrypted private key. See RFC 4880, +// section 5.5.3. +type PrivateKey struct { + PublicKey + Encrypted bool // if true then the private key is unavailable until Decrypt has been called. + encryptedData []byte + cipher CipherFunction + s2k func(out, in []byte) + PrivateKey interface{} // An *rsa.PrivateKey or *dsa.PrivateKey. + sha1Checksum bool + iv []byte + s2kHeader []byte +} + +type EdDSAPrivateKey struct { + PrivateKey + seed parsedMPI +} + +func (e *EdDSAPrivateKey) Sign(digest []byte) (R, S []byte, err error) { + r := bytes.NewReader(e.seed.bytes) + publicKey, privateKey, err := ed25519.GenerateKey(r) + if err != nil { + return nil, nil, err + } + + if !bytes.Equal(publicKey, e.PublicKey.edk.p.bytes[1:]) { // [1:] because [0] is 0x40 mpi header + return nil, nil, errors.UnsupportedError("EdDSA: Private key does not match public key.") + } + + sig := ed25519.Sign(privateKey, digest) + + sigLen := ed25519.SignatureSize / 2 + return sig[:sigLen], sig[sigLen:], nil +} + +func NewRSAPrivateKey(currentTime time.Time, priv *rsa.PrivateKey) *PrivateKey { + pk := new(PrivateKey) + pk.PublicKey = *NewRSAPublicKey(currentTime, &priv.PublicKey) + pk.PrivateKey = priv + return pk +} + +func NewDSAPrivateKey(currentTime time.Time, priv *dsa.PrivateKey) *PrivateKey { + pk := new(PrivateKey) + pk.PublicKey = *NewDSAPublicKey(currentTime, &priv.PublicKey) + pk.PrivateKey = priv + return pk +} + +func NewElGamalPrivateKey(currentTime time.Time, priv *elgamal.PrivateKey) *PrivateKey { + pk := new(PrivateKey) + pk.PublicKey = *NewElGamalPublicKey(currentTime, &priv.PublicKey) + pk.PrivateKey = priv + return pk +} + +func NewECDSAPrivateKey(currentTime time.Time, priv *ecdsa.PrivateKey) *PrivateKey { + pk := new(PrivateKey) + pk.PublicKey = *NewECDSAPublicKey(currentTime, &priv.PublicKey) + pk.PrivateKey = priv + return pk +} + +func (pk *PrivateKey) parse(r io.Reader) (err error) { + err = (&pk.PublicKey).parse(r) + if err != nil { + return + } + var buf [1]byte + _, err = readFull(r, buf[:]) + if err != nil { + return + } + + s2kType := buf[0] + + switch s2kType { + case 0: + pk.s2k = nil + pk.Encrypted = false + case 254, 255: + _, err = readFull(r, buf[:]) + if err != nil { + return + } + pk.cipher = CipherFunction(buf[0]) + pk.Encrypted = true + pk.s2k, err = s2k.Parse(r) + if err != nil { + return + } + if s2kType == 254 { + pk.sha1Checksum = true + } + // S2K == nil implies that we got a "GNU Dummy" S2K. For instance, + // because our master secret key is on a USB key in a vault somewhere. + // In that case, there is no further data to consume here. + if pk.s2k == nil { + pk.Encrypted = false + return + } + default: + return errors.UnsupportedError("deprecated s2k function in private key") + } + if pk.Encrypted { + blockSize := pk.cipher.blockSize() + if blockSize == 0 { + return errors.UnsupportedError("unsupported cipher in private key: " + strconv.Itoa(int(pk.cipher))) + } + pk.iv = make([]byte, blockSize) + _, err = readFull(r, pk.iv) + if err != nil { + return + } + } + + pk.encryptedData, err = ioutil.ReadAll(r) + if err != nil { + return + } + + if !pk.Encrypted { + return pk.parsePrivateKey(pk.encryptedData) + } + + return +} + +func mod64kHash(d []byte) uint16 { + var h uint16 + for _, b := range d { + h += uint16(b) + } + return h +} + +// Encrypt is the counterpart to the Decrypt() method below. It encrypts +// the private key with the provided passphrase. If config is nil, then +// the standard, and sensible, defaults apply. +// +// A key will be derived from the given passphrase using S2K Specifier +// Type 3 (Iterated + Salted, see RFC-4880 Sec. 3.7.1.3). This choice +// is hardcoded in s2k.Serialize(). S2KCount is hardcoded to 0, which is +// equivalent to 65536. And the hash algorithm for key-derivation can be +// set with config. The encrypted PrivateKey, using the algorithm specified +// in config (if provided), is written out to the encryptedData member. +// When Serialize() is called, this encryptedData member will be +// serialized, using S2K Usage value of 254, and thus SHA1 checksum. +func (pk *PrivateKey) Encrypt(passphrase []byte, config *Config) (err error) { + if pk.PrivateKey == nil { + return errors.InvalidArgumentError("there is no private key to encrypt") + } + + pk.sha1Checksum = true + pk.cipher = config.Cipher() + s2kConfig := s2k.Config{ + Hash: config.Hash(), + S2KCount: 0, + } + s2kBuf := bytes.NewBuffer(nil) + derivedKey := make([]byte, pk.cipher.KeySize()) + err = s2k.Serialize(s2kBuf, derivedKey, config.Random(), passphrase, &s2kConfig) + if err != nil { + return err + } + + pk.s2kHeader = s2kBuf.Bytes() + // No good way to set pk.s2k but to call s2k.Parse(), + // even though we have all the information here, but + // most of the functions needed are private to s2k. + pk.s2k, err = s2k.Parse(s2kBuf) + pk.iv = make([]byte, pk.cipher.blockSize()) + if _, err = config.Random().Read(pk.iv); err != nil { + return err + } + + privateKeyBuf := bytes.NewBuffer(nil) + if err = pk.serializePrivateKey(privateKeyBuf); err != nil { + return err + } + + checksum := sha1.Sum(privateKeyBuf.Bytes()) + if _, err = privateKeyBuf.Write(checksum[:]); err != nil { + return err + } + + pkData := privateKeyBuf.Bytes() + block := pk.cipher.new(derivedKey) + pk.encryptedData = make([]byte, len(pkData)) + cfb := cipher.NewCFBEncrypter(block, pk.iv) + cfb.XORKeyStream(pk.encryptedData, pkData) + pk.Encrypted = true + return nil +} + +func (pk *PrivateKey) Serialize(w io.Writer) (err error) { + buf := bytes.NewBuffer(nil) + err = pk.PublicKey.serializeWithoutHeaders(buf) + if err != nil { + return + } + + privateKeyBuf := bytes.NewBuffer(nil) + + if pk.PrivateKey == nil { + _, err = buf.Write([]byte{ + 254, // SHA-1 Convention + 9, // Encryption scheme (AES256) + 101, // GNU Extensions + 2, // Hash value (SHA1) + 'G', 'N', 'U', // "GNU" as a string + 1, // Extension type 1001 (minus 1000) + }) + } else if pk.Encrypted { + _, err = buf.Write([]byte{ + 254, // SHA-1 Convention + byte(pk.cipher), // Encryption scheme + }) + if err != nil { + return err + } + if _, err = buf.Write(pk.s2kHeader); err != nil { + return err + } + if _, err = buf.Write(pk.iv); err != nil { + return err + } + if _, err = privateKeyBuf.Write(pk.encryptedData); err != nil { + return err + } + } else { + buf.WriteByte(0 /* no encryption */) + if err = pk.serializePrivateKey(privateKeyBuf); err != nil { + return err + } + } + + ptype := packetTypePrivateKey + contents := buf.Bytes() + privateKeyBytes := privateKeyBuf.Bytes() + if pk.IsSubkey { + ptype = packetTypePrivateSubkey + } + totalLen := len(contents) + len(privateKeyBytes) + if !pk.Encrypted { + totalLen += 2 + } + err = serializeHeader(w, ptype, totalLen) + if err != nil { + return + } + _, err = w.Write(contents) + if err != nil { + return + } + _, err = w.Write(privateKeyBytes) + if err != nil { + return + } + + if len(privateKeyBytes) > 0 && !pk.Encrypted { + checksum := mod64kHash(privateKeyBytes) + var checksumBytes [2]byte + checksumBytes[0] = byte(checksum >> 8) + checksumBytes[1] = byte(checksum) + _, err = w.Write(checksumBytes[:]) + } + + return +} + +func (pk *PrivateKey) serializePrivateKey(w io.Writer) (err error) { + switch priv := pk.PrivateKey.(type) { + case *rsa.PrivateKey: + err = serializeRSAPrivateKey(w, priv) + case *dsa.PrivateKey: + err = serializeDSAPrivateKey(w, priv) + case *elgamal.PrivateKey: + err = serializeElGamalPrivateKey(w, priv) + case *ecdsa.PrivateKey: + err = serializeECDSAPrivateKey(w, priv) + case *ecdh.PrivateKey: + err = serializeECDHPrivateKey(w, priv) + case *EdDSAPrivateKey: + err = serializeEdDSAPrivateKey(w, priv) + default: + err = errors.InvalidArgumentError("unknown private key type") + } + + return err +} + +func serializeRSAPrivateKey(w io.Writer, priv *rsa.PrivateKey) error { + err := writeBig(w, priv.D) + if err != nil { + return err + } + err = writeBig(w, priv.Primes[1]) + if err != nil { + return err + } + err = writeBig(w, priv.Primes[0]) + if err != nil { + return err + } + return writeBig(w, priv.Precomputed.Qinv) +} + +func serializeDSAPrivateKey(w io.Writer, priv *dsa.PrivateKey) error { + return writeBig(w, priv.X) +} + +func serializeElGamalPrivateKey(w io.Writer, priv *elgamal.PrivateKey) error { + return writeBig(w, priv.X) +} + +func serializeECDSAPrivateKey(w io.Writer, priv *ecdsa.PrivateKey) error { + return writeBig(w, priv.D) +} + +func serializeECDHPrivateKey(w io.Writer, priv *ecdh.PrivateKey) error { + return writeBig(w, priv.X) +} + +func serializeEdDSAPrivateKey(w io.Writer, priv *EdDSAPrivateKey) error { + return writeMPI(w, priv.seed.bitLength, priv.seed.bytes) +} + +// Decrypt decrypts an encrypted private key using a passphrase. +func (pk *PrivateKey) Decrypt(passphrase []byte) error { + if !pk.Encrypted { + return nil + } + // For GNU Dummy S2K, there's no key here, so don't do anything. + if pk.s2k == nil { + return nil + } + + key := make([]byte, pk.cipher.KeySize()) + pk.s2k(key, passphrase) + block := pk.cipher.new(key) + cfb := cipher.NewCFBDecrypter(block, pk.iv) + + data := make([]byte, len(pk.encryptedData)) + cfb.XORKeyStream(data, pk.encryptedData) + + if pk.sha1Checksum { + if len(data) < sha1.Size { + return errors.StructuralError("truncated private key data") + } + h := sha1.New() + h.Write(data[:len(data)-sha1.Size]) + sum := h.Sum(nil) + if !bytes.Equal(sum, data[len(data)-sha1.Size:]) { + return errors.StructuralError("private key checksum failure") + } + data = data[:len(data)-sha1.Size] + } else { + if len(data) < 2 { + return errors.StructuralError("truncated private key data") + } + var sum uint16 + for i := 0; i < len(data)-2; i++ { + sum += uint16(data[i]) + } + if data[len(data)-2] != uint8(sum>>8) || + data[len(data)-1] != uint8(sum) { + return errors.StructuralError("private key checksum failure") + } + data = data[:len(data)-2] + } + + return pk.parsePrivateKey(data) +} + +func (pk *PrivateKey) parsePrivateKey(data []byte) (err error) { + switch pk.PublicKey.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly, PubKeyAlgoRSAEncryptOnly: + return pk.parseRSAPrivateKey(data) + case PubKeyAlgoDSA: + return pk.parseDSAPrivateKey(data) + case PubKeyAlgoElGamal: + return pk.parseElGamalPrivateKey(data) + case PubKeyAlgoECDSA: + return pk.parseECDSAPrivateKey(data) + case PubKeyAlgoECDH: + return pk.parseECDHPrivateKey(data) + case PubKeyAlgoEdDSA: + return pk.parseEdDSAPrivateKey(data) + } + panic("impossible") +} + +func (pk *PrivateKey) parseRSAPrivateKey(data []byte) (err error) { + rsaPub := pk.PublicKey.PublicKey.(*rsa.PublicKey) + rsaPriv := new(rsa.PrivateKey) + rsaPriv.PublicKey = *rsaPub + + buf := bytes.NewBuffer(data) + d, _, err := readMPI(buf) + if err != nil { + return + } + p, _, err := readMPI(buf) + if err != nil { + return + } + q, _, err := readMPI(buf) + if err != nil { + return + } + + rsaPriv.D = new(big.Int).SetBytes(d) + rsaPriv.Primes = make([]*big.Int, 2) + rsaPriv.Primes[0] = new(big.Int).SetBytes(p) + rsaPriv.Primes[1] = new(big.Int).SetBytes(q) + if err := rsaPriv.Validate(); err != nil { + return err + } + rsaPriv.Precompute() + pk.PrivateKey = rsaPriv + pk.Encrypted = false + pk.encryptedData = nil + + return nil +} + +func (pk *PrivateKey) parseDSAPrivateKey(data []byte) (err error) { + dsaPub := pk.PublicKey.PublicKey.(*dsa.PublicKey) + dsaPriv := new(dsa.PrivateKey) + dsaPriv.PublicKey = *dsaPub + + buf := bytes.NewBuffer(data) + x, _, err := readMPI(buf) + if err != nil { + return + } + + dsaPriv.X = new(big.Int).SetBytes(x) + pk.PrivateKey = dsaPriv + pk.Encrypted = false + pk.encryptedData = nil + + return nil +} + +func (pk *PrivateKey) parseElGamalPrivateKey(data []byte) (err error) { + pub := pk.PublicKey.PublicKey.(*elgamal.PublicKey) + priv := new(elgamal.PrivateKey) + priv.PublicKey = *pub + + buf := bytes.NewBuffer(data) + x, _, err := readMPI(buf) + if err != nil { + return + } + + priv.X = new(big.Int).SetBytes(x) + pk.PrivateKey = priv + pk.Encrypted = false + pk.encryptedData = nil + + return nil +} + +func (pk *PrivateKey) parseECDHPrivateKey(data []byte) (err error) { + pub := pk.PublicKey.PublicKey.(*ecdh.PublicKey) + priv := new(ecdh.PrivateKey) + priv.PublicKey = *pub + + buf := bytes.NewBuffer(data) + d, _, err := readMPI(buf) + if err != nil { + return + } + + priv.X = new(big.Int).SetBytes(d) + pk.PrivateKey = priv + pk.Encrypted = false + pk.encryptedData = nil + return nil +} + +func (pk *PrivateKey) parseECDSAPrivateKey(data []byte) (err error) { + ecdsaPub := pk.PublicKey.PublicKey.(*ecdsa.PublicKey) + ecdsaPriv := new(ecdsa.PrivateKey) + ecdsaPriv.PublicKey = *ecdsaPub + + buf := bytes.NewBuffer(data) + d, _, err := readMPI(buf) + if err != nil { + return + } + + ecdsaPriv.D = new(big.Int).SetBytes(d) + pk.PrivateKey = ecdsaPriv + pk.Encrypted = false + pk.encryptedData = nil + + return nil +} + +func (pk *PrivateKey) parseEdDSAPrivateKey(data []byte) (err error) { + eddsaPriv := new(EdDSAPrivateKey) + eddsaPriv.PublicKey = pk.PublicKey + + buf := bytes.NewBuffer(data) + eddsaPriv.seed.bytes, eddsaPriv.seed.bitLength, err = readMPI(buf) + if err != nil { + return err + } + + if bLen := len(eddsaPriv.seed.bytes); bLen != 32 { // 32 bytes private part of ed25519 key. + return errors.UnsupportedError(fmt.Sprintf("Unexpected EdDSA private key length: %d", bLen)) + } + + pk.PrivateKey = eddsaPriv + pk.Encrypted = false + pk.encryptedData = nil + + return nil +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/public_key.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/public_key.go new file mode 100644 index 00000000..f9760177 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/public_key.go @@ -0,0 +1,930 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "bytes" + "crypto" + "crypto/dsa" + "crypto/ecdsa" + "crypto/elliptic" + "crypto/sha1" + _ "crypto/sha256" + _ "crypto/sha512" + "encoding/binary" + "fmt" + "hash" + "io" + "math/big" + "strconv" + "time" + + "github.com/keybase/go-crypto/brainpool" + "github.com/keybase/go-crypto/curve25519" + "github.com/keybase/go-crypto/ed25519" + "github.com/keybase/go-crypto/openpgp/ecdh" + "github.com/keybase/go-crypto/openpgp/elgamal" + "github.com/keybase/go-crypto/openpgp/errors" + "github.com/keybase/go-crypto/rsa" +) + +var ( + // NIST curve P-256 + oidCurveP256 []byte = []byte{0x2A, 0x86, 0x48, 0xCE, 0x3D, 0x03, 0x01, 0x07} + // NIST curve P-384 + oidCurveP384 []byte = []byte{0x2B, 0x81, 0x04, 0x00, 0x22} + // NIST curve P-521 + oidCurveP521 []byte = []byte{0x2B, 0x81, 0x04, 0x00, 0x23} + // Brainpool curve P-256r1 + oidCurveP256r1 []byte = []byte{0x2B, 0x24, 0x03, 0x03, 0x02, 0x08, 0x01, 0x01, 0x07} + // Brainpool curve P-384r1 + oidCurveP384r1 []byte = []byte{0x2B, 0x24, 0x03, 0x03, 0x02, 0x08, 0x01, 0x01, 0x0B} + // Brainpool curve P-512r1 + oidCurveP512r1 []byte = []byte{0x2B, 0x24, 0x03, 0x03, 0x02, 0x08, 0x01, 0x01, 0x0D} + // EdDSA + oidEdDSA []byte = []byte{0x2B, 0x06, 0x01, 0x04, 0x01, 0xDA, 0x47, 0x0F, 0x01} + // cv25519 + oidCurve25519 []byte = []byte{0x2B, 0x06, 0x01, 0x04, 0x01, 0x97, 0x55, 0x01, 0x05, 0x01} +) + +const maxOIDLength = 10 + +// ecdsaKey stores the algorithm-specific fields for ECDSA keys. +// as defined in RFC 6637, Section 9. +type ecdsaKey struct { + // oid contains the OID byte sequence identifying the elliptic curve used + oid []byte + // p contains the elliptic curve point that represents the public key + p parsedMPI +} + +type edDSAkey struct { + ecdsaKey +} + +func copyFrontFill(dst, src []byte, length int) int { + if srcLen := len(src); srcLen < length { + return copy(dst[length-srcLen:], src[:]) + } else { + return copy(dst[:], src[:]) + } +} + +func (e *edDSAkey) Verify(payload []byte, r parsedMPI, s parsedMPI) bool { + const halfSigSize = ed25519.SignatureSize / 2 + var sig [ed25519.SignatureSize]byte + + // NOTE: The first byte is 0x40 - MPI header + // TODO: Maybe clean the code up and use 0x40 as a header when + // reading and keep only actual number in p field. Find out how + // other MPIs are stored. + key := e.p.bytes[1:] + + // Note: it may happen that R + S do not form 64-byte signature buffer that + // ed25519 expects, but because we copy it over to an array of exact size, + // we will always pass correctly sized slice to Verify. Slice too short + // would make ed25519 panic(). + copyFrontFill(sig[:halfSigSize], r.bytes, halfSigSize) + copyFrontFill(sig[halfSigSize:], s.bytes, halfSigSize) + + return ed25519.Verify(key, payload, sig[:]) +} + +// parseOID reads the OID for the curve as defined in RFC 6637, Section 9. +func parseOID(r io.Reader) (oid []byte, err error) { + buf := make([]byte, maxOIDLength) + if _, err = readFull(r, buf[:1]); err != nil { + return + } + oidLen := buf[0] + if int(oidLen) > len(buf) { + err = errors.UnsupportedError("invalid oid length: " + strconv.Itoa(int(oidLen))) + return + } + oid = buf[:oidLen] + _, err = readFull(r, oid) + return +} + +func (f *ecdsaKey) parse(r io.Reader) (err error) { + if f.oid, err = parseOID(r); err != nil { + return err + } + f.p.bytes, f.p.bitLength, err = readMPI(r) + return err +} + +func (f *ecdsaKey) serialize(w io.Writer) (err error) { + buf := make([]byte, maxOIDLength+1) + buf[0] = byte(len(f.oid)) + copy(buf[1:], f.oid) + if _, err = w.Write(buf[:len(f.oid)+1]); err != nil { + return + } + return writeMPIs(w, f.p) +} + +func getCurveByOid(oid []byte) elliptic.Curve { + switch { + case bytes.Equal(oid, oidCurveP256): + return elliptic.P256() + case bytes.Equal(oid, oidCurveP384): + return elliptic.P384() + case bytes.Equal(oid, oidCurveP521): + return elliptic.P521() + case bytes.Equal(oid, oidCurveP256r1): + return brainpool.P256r1() + case bytes.Equal(oid, oidCurveP384r1): + return brainpool.P384r1() + case bytes.Equal(oid, oidCurveP512r1): + return brainpool.P512r1() + case bytes.Equal(oid, oidCurve25519): + return curve25519.Cv25519() + default: + return nil + } +} + +func (f *ecdsaKey) newECDSA() (*ecdsa.PublicKey, error) { + var c = getCurveByOid(f.oid) + // Curve25519 should not be used in ECDSA. + if c == nil || bytes.Equal(f.oid, oidCurve25519) { + return nil, errors.UnsupportedError(fmt.Sprintf("unsupported oid: %x", f.oid)) + } + // Note: Unmarshal already checks if point is on curve. + x, y := elliptic.Unmarshal(c, f.p.bytes) + if x == nil { + return nil, errors.UnsupportedError("failed to parse EC point") + } + return &ecdsa.PublicKey{Curve: c, X: x, Y: y}, nil +} + +func (f *ecdsaKey) newECDH() (*ecdh.PublicKey, error) { + var c = getCurveByOid(f.oid) + if c == nil { + return nil, errors.UnsupportedError(fmt.Sprintf("unsupported oid: %x", f.oid)) + } + // ecdh.Unmarshal handles unmarshaling for all curve types. It + // also checks if point is on curve. + x, y := ecdh.Unmarshal(c, f.p.bytes) + if x == nil { + return nil, errors.UnsupportedError("failed to parse EC point") + } + return &ecdh.PublicKey{Curve: c, X: x, Y: y}, nil +} + +func (f *ecdsaKey) byteLen() int { + return 1 + len(f.oid) + 2 + len(f.p.bytes) +} + +type kdfHashFunction byte +type kdfAlgorithm byte + +// ecdhKdf stores key derivation function parameters +// used for ECDH encryption. See RFC 6637, Section 9. +type ecdhKdf struct { + KdfHash kdfHashFunction + KdfAlgo kdfAlgorithm +} + +func (f *ecdhKdf) parse(r io.Reader) (err error) { + buf := make([]byte, 1) + if _, err = readFull(r, buf); err != nil { + return + } + kdfLen := int(buf[0]) + if kdfLen < 3 { + return errors.UnsupportedError("Unsupported ECDH KDF length: " + strconv.Itoa(kdfLen)) + } + buf = make([]byte, kdfLen) + if _, err = readFull(r, buf); err != nil { + return + } + reserved := int(buf[0]) + f.KdfHash = kdfHashFunction(buf[1]) + f.KdfAlgo = kdfAlgorithm(buf[2]) + if reserved != 0x01 { + return errors.UnsupportedError("Unsupported KDF reserved field: " + strconv.Itoa(reserved)) + } + return +} + +func (f *ecdhKdf) serialize(w io.Writer) (err error) { + buf := make([]byte, 4) + // See RFC 6637, Section 9, Algorithm-Specific Fields for ECDH keys. + buf[0] = byte(0x03) // Length of the following fields + buf[1] = byte(0x01) // Reserved for future extensions, must be 1 for now + buf[2] = byte(f.KdfHash) + buf[3] = byte(f.KdfAlgo) + _, err = w.Write(buf[:]) + return +} + +func (f *ecdhKdf) byteLen() int { + return 4 +} + +// PublicKey represents an OpenPGP public key. See RFC 4880, section 5.5.2. +type PublicKey struct { + CreationTime time.Time + PubKeyAlgo PublicKeyAlgorithm + PublicKey interface{} // *rsa.PublicKey, *dsa.PublicKey or *ecdsa.PublicKey + Fingerprint [20]byte + KeyId uint64 + IsSubkey bool + + n, e, p, q, g, y parsedMPI + + // RFC 6637 fields + ec *ecdsaKey + ecdh *ecdhKdf + + // EdDSA fields (no RFC available), uses ecdsa scaffolding + edk *edDSAkey +} + +// signingKey provides a convenient abstraction over signature verification +// for v3 and v4 public keys. +type signingKey interface { + SerializeSignaturePrefix(io.Writer) + serializeWithoutHeaders(io.Writer) error +} + +func FromBig(n *big.Int) parsedMPI { + return parsedMPI{ + bytes: n.Bytes(), + bitLength: uint16(n.BitLen()), + } +} + +func FromBytes(bytes []byte) parsedMPI { + return parsedMPI{ + bytes: bytes, + bitLength: uint16(8 * len(bytes)), + } +} + +// NewRSAPublicKey returns a PublicKey that wraps the given rsa.PublicKey. +func NewRSAPublicKey(creationTime time.Time, pub *rsa.PublicKey) *PublicKey { + pk := &PublicKey{ + CreationTime: creationTime, + PubKeyAlgo: PubKeyAlgoRSA, + PublicKey: pub, + n: FromBig(pub.N), + e: FromBig(big.NewInt(int64(pub.E))), + } + + pk.setFingerPrintAndKeyId() + return pk +} + +// NewDSAPublicKey returns a PublicKey that wraps the given dsa.PublicKey. +func NewDSAPublicKey(creationTime time.Time, pub *dsa.PublicKey) *PublicKey { + pk := &PublicKey{ + CreationTime: creationTime, + PubKeyAlgo: PubKeyAlgoDSA, + PublicKey: pub, + p: FromBig(pub.P), + q: FromBig(pub.Q), + g: FromBig(pub.G), + y: FromBig(pub.Y), + } + + pk.setFingerPrintAndKeyId() + return pk +} + +// check EdDSA public key material. +// There is currently no RFC for it, but it doesn't mean it's not +// implemented or in use. +func (e *edDSAkey) check() error { + if !bytes.Equal(e.oid, oidEdDSA) { + return errors.UnsupportedError(fmt.Sprintf("Bad OID for EdDSA key: %v", e.oid)) + } + if bLen := len(e.p.bytes); bLen != 33 { // 32 bytes for ed25519 key and 1 byte for 0x40 header + return errors.UnsupportedError(fmt.Sprintf("Unexpected EdDSA public key length: %d", bLen)) + } + return nil +} + +// NewElGamalPublicKey returns a PublicKey that wraps the given elgamal.PublicKey. +func NewElGamalPublicKey(creationTime time.Time, pub *elgamal.PublicKey) *PublicKey { + pk := &PublicKey{ + CreationTime: creationTime, + PubKeyAlgo: PubKeyAlgoElGamal, + PublicKey: pub, + p: FromBig(pub.P), + g: FromBig(pub.G), + y: FromBig(pub.Y), + } + + pk.setFingerPrintAndKeyId() + return pk +} + +func NewECDSAPublicKey(creationTime time.Time, pub *ecdsa.PublicKey) *PublicKey { + pk := &PublicKey{ + CreationTime: creationTime, + PubKeyAlgo: PubKeyAlgoECDSA, + PublicKey: pub, + ec: new(ecdsaKey), + } + switch pub.Curve { + case elliptic.P256(): + pk.ec.oid = oidCurveP256 + case elliptic.P384(): + pk.ec.oid = oidCurveP384 + case elliptic.P521(): + pk.ec.oid = oidCurveP521 + case brainpool.P256r1(): + pk.ec.oid = oidCurveP256r1 + case brainpool.P384r1(): + pk.ec.oid = oidCurveP384r1 + case brainpool.P512r1(): + pk.ec.oid = oidCurveP512r1 + } + pk.ec.p.bytes = elliptic.Marshal(pub.Curve, pub.X, pub.Y) + pk.ec.p.bitLength = uint16(8 * len(pk.ec.p.bytes)) + + pk.setFingerPrintAndKeyId() + return pk +} + +func (pk *PublicKey) parse(r io.Reader) (err error) { + // RFC 4880, section 5.5.2 + var buf [6]byte + _, err = readFull(r, buf[:]) + if err != nil { + return + } + if buf[0] != 4 { + return errors.UnsupportedError("public key version") + } + pk.CreationTime = time.Unix(int64(uint32(buf[1])<<24|uint32(buf[2])<<16|uint32(buf[3])<<8|uint32(buf[4])), 0) + pk.PubKeyAlgo = PublicKeyAlgorithm(buf[5]) + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly: + err = pk.parseRSA(r) + case PubKeyAlgoDSA: + err = pk.parseDSA(r) + case PubKeyAlgoElGamal: + err = pk.parseElGamal(r) + case PubKeyAlgoEdDSA: + pk.edk = new(edDSAkey) + if err = pk.edk.parse(r); err != nil { + return err + } + err = pk.edk.check() + case PubKeyAlgoECDSA: + pk.ec = new(ecdsaKey) + if err = pk.ec.parse(r); err != nil { + return err + } + pk.PublicKey, err = pk.ec.newECDSA() + case PubKeyAlgoECDH: + pk.ec = new(ecdsaKey) + if err = pk.ec.parse(r); err != nil { + return + } + pk.ecdh = new(ecdhKdf) + if err = pk.ecdh.parse(r); err != nil { + return + } + pk.PublicKey, err = pk.ec.newECDH() + default: + err = errors.UnsupportedError("public key type: " + strconv.Itoa(int(pk.PubKeyAlgo))) + } + if err != nil { + return + } + + pk.setFingerPrintAndKeyId() + return +} + +func (pk *PublicKey) setFingerPrintAndKeyId() { + // RFC 4880, section 12.2 + fingerPrint := sha1.New() + pk.SerializeSignaturePrefix(fingerPrint) + pk.serializeWithoutHeaders(fingerPrint) + copy(pk.Fingerprint[:], fingerPrint.Sum(nil)) + pk.KeyId = binary.BigEndian.Uint64(pk.Fingerprint[12:20]) +} + +// parseRSA parses RSA public key material from the given Reader. See RFC 4880, +// section 5.5.2. +func (pk *PublicKey) parseRSA(r io.Reader) (err error) { + pk.n.bytes, pk.n.bitLength, err = readMPI(r) + if err != nil { + return + } + pk.e.bytes, pk.e.bitLength, err = readMPI(r) + if err != nil { + return + } + + if len(pk.e.bytes) > 7 { + err = errors.UnsupportedError("large public exponent") + return + } + rsa := &rsa.PublicKey{ + N: new(big.Int).SetBytes(pk.n.bytes), + E: 0, + } + for i := 0; i < len(pk.e.bytes); i++ { + rsa.E <<= 8 + rsa.E |= int64(pk.e.bytes[i]) + } + pk.PublicKey = rsa + return +} + +// parseDSA parses DSA public key material from the given Reader. See RFC 4880, +// section 5.5.2. +func (pk *PublicKey) parseDSA(r io.Reader) (err error) { + pk.p.bytes, pk.p.bitLength, err = readMPI(r) + if err != nil { + return + } + pk.q.bytes, pk.q.bitLength, err = readMPI(r) + if err != nil { + return + } + pk.g.bytes, pk.g.bitLength, err = readMPI(r) + if err != nil { + return + } + pk.y.bytes, pk.y.bitLength, err = readMPI(r) + if err != nil { + return + } + + dsa := new(dsa.PublicKey) + dsa.P = new(big.Int).SetBytes(pk.p.bytes) + dsa.Q = new(big.Int).SetBytes(pk.q.bytes) + dsa.G = new(big.Int).SetBytes(pk.g.bytes) + dsa.Y = new(big.Int).SetBytes(pk.y.bytes) + pk.PublicKey = dsa + return +} + +// parseElGamal parses ElGamal public key material from the given Reader. See +// RFC 4880, section 5.5.2. +func (pk *PublicKey) parseElGamal(r io.Reader) (err error) { + pk.p.bytes, pk.p.bitLength, err = readMPI(r) + if err != nil { + return + } + pk.g.bytes, pk.g.bitLength, err = readMPI(r) + if err != nil { + return + } + pk.y.bytes, pk.y.bitLength, err = readMPI(r) + if err != nil { + return + } + + elgamal := new(elgamal.PublicKey) + elgamal.P = new(big.Int).SetBytes(pk.p.bytes) + elgamal.G = new(big.Int).SetBytes(pk.g.bytes) + elgamal.Y = new(big.Int).SetBytes(pk.y.bytes) + pk.PublicKey = elgamal + return +} + +// SerializeSignaturePrefix writes the prefix for this public key to the given Writer. +// The prefix is used when calculating a signature over this public key. See +// RFC 4880, section 5.2.4. +func (pk *PublicKey) SerializeSignaturePrefix(h io.Writer) { + var pLength uint16 + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly: + pLength += 2 + uint16(len(pk.n.bytes)) + pLength += 2 + uint16(len(pk.e.bytes)) + case PubKeyAlgoDSA: + pLength += 2 + uint16(len(pk.p.bytes)) + pLength += 2 + uint16(len(pk.q.bytes)) + pLength += 2 + uint16(len(pk.g.bytes)) + pLength += 2 + uint16(len(pk.y.bytes)) + case PubKeyAlgoElGamal: + pLength += 2 + uint16(len(pk.p.bytes)) + pLength += 2 + uint16(len(pk.g.bytes)) + pLength += 2 + uint16(len(pk.y.bytes)) + case PubKeyAlgoECDSA: + pLength += uint16(pk.ec.byteLen()) + case PubKeyAlgoECDH: + pLength += uint16(pk.ec.byteLen()) + pLength += uint16(pk.ecdh.byteLen()) + case PubKeyAlgoEdDSA: + pLength += uint16(pk.edk.byteLen()) + default: + panic("unknown public key algorithm") + } + pLength += 6 + h.Write([]byte{0x99, byte(pLength >> 8), byte(pLength)}) + return +} + +func (pk *PublicKey) Serialize(w io.Writer) (err error) { + length := 6 // 6 byte header + + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly: + length += 2 + len(pk.n.bytes) + length += 2 + len(pk.e.bytes) + case PubKeyAlgoDSA: + length += 2 + len(pk.p.bytes) + length += 2 + len(pk.q.bytes) + length += 2 + len(pk.g.bytes) + length += 2 + len(pk.y.bytes) + case PubKeyAlgoElGamal: + length += 2 + len(pk.p.bytes) + length += 2 + len(pk.g.bytes) + length += 2 + len(pk.y.bytes) + case PubKeyAlgoECDSA: + length += pk.ec.byteLen() + case PubKeyAlgoECDH: + length += pk.ec.byteLen() + length += pk.ecdh.byteLen() + case PubKeyAlgoEdDSA: + length += pk.edk.byteLen() + default: + panic("unknown public key algorithm") + } + + packetType := packetTypePublicKey + if pk.IsSubkey { + packetType = packetTypePublicSubkey + } + err = serializeHeader(w, packetType, length) + if err != nil { + return + } + return pk.serializeWithoutHeaders(w) +} + +// serializeWithoutHeaders marshals the PublicKey to w in the form of an +// OpenPGP public key packet, not including the packet header. +func (pk *PublicKey) serializeWithoutHeaders(w io.Writer) (err error) { + var buf [6]byte + buf[0] = 4 + t := uint32(pk.CreationTime.Unix()) + buf[1] = byte(t >> 24) + buf[2] = byte(t >> 16) + buf[3] = byte(t >> 8) + buf[4] = byte(t) + buf[5] = byte(pk.PubKeyAlgo) + + _, err = w.Write(buf[:]) + if err != nil { + return + } + + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly: + return writeMPIs(w, pk.n, pk.e) + case PubKeyAlgoDSA: + return writeMPIs(w, pk.p, pk.q, pk.g, pk.y) + case PubKeyAlgoElGamal: + return writeMPIs(w, pk.p, pk.g, pk.y) + case PubKeyAlgoECDSA: + return pk.ec.serialize(w) + case PubKeyAlgoEdDSA: + return pk.edk.serialize(w) + case PubKeyAlgoECDH: + if err = pk.ec.serialize(w); err != nil { + return + } + return pk.ecdh.serialize(w) + } + return errors.InvalidArgumentError("bad public-key algorithm") +} + +// CanSign returns true iff this public key can generate signatures +func (pk *PublicKey) CanSign() bool { + return pk.PubKeyAlgo != PubKeyAlgoRSAEncryptOnly && pk.PubKeyAlgo != PubKeyAlgoElGamal +} + +// VerifySignature returns nil iff sig is a valid signature, made by this +// public key, of the data hashed into signed. signed is mutated by this call. +func (pk *PublicKey) VerifySignature(signed hash.Hash, sig *Signature) (err error) { + if !pk.CanSign() { + return errors.InvalidArgumentError("public key cannot generate signatures") + } + + signed.Write(sig.HashSuffix) + hashBytes := signed.Sum(nil) + + // NOTE(maxtaco) 2016-08-22 + // + // We used to do this: + // + // if hashBytes[0] != sig.HashTag[0] || hashBytes[1] != sig.HashTag[1] { + // return errors.SignatureError("hash tag doesn't match") + // } + // + // But don't do anything in this case. Some GPGs generate bad + // 2-byte hash prefixes, but GPG also doesn't seem to care on + // import. See BrentMaxwell's key. I think it's safe to disable + // this check! + + if pk.PubKeyAlgo != sig.PubKeyAlgo { + return errors.InvalidArgumentError("public key and signature use different algorithms") + } + + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly: + rsaPublicKey, _ := pk.PublicKey.(*rsa.PublicKey) + err = rsa.VerifyPKCS1v15(rsaPublicKey, sig.Hash, hashBytes, sig.RSASignature.bytes) + if err != nil { + return errors.SignatureError("RSA verification failure") + } + return nil + case PubKeyAlgoDSA: + dsaPublicKey, _ := pk.PublicKey.(*dsa.PublicKey) + // Need to truncate hashBytes to match FIPS 186-3 section 4.6. + subgroupSize := (dsaPublicKey.Q.BitLen() + 7) / 8 + if len(hashBytes) > subgroupSize { + hashBytes = hashBytes[:subgroupSize] + } + if !dsa.Verify(dsaPublicKey, hashBytes, new(big.Int).SetBytes(sig.DSASigR.bytes), new(big.Int).SetBytes(sig.DSASigS.bytes)) { + return errors.SignatureError("DSA verification failure") + } + return nil + case PubKeyAlgoECDSA: + ecdsaPublicKey := pk.PublicKey.(*ecdsa.PublicKey) + if !ecdsa.Verify(ecdsaPublicKey, hashBytes, new(big.Int).SetBytes(sig.ECDSASigR.bytes), new(big.Int).SetBytes(sig.ECDSASigS.bytes)) { + return errors.SignatureError("ECDSA verification failure") + } + return nil + case PubKeyAlgoEdDSA: + if !pk.edk.Verify(hashBytes, sig.EdDSASigR, sig.EdDSASigS) { + return errors.SignatureError("EdDSA verification failure") + } + return nil + default: + return errors.SignatureError("Unsupported public key algorithm used in signature") + } + panic("unreachable") +} + +// VerifySignatureV3 returns nil iff sig is a valid signature, made by this +// public key, of the data hashed into signed. signed is mutated by this call. +func (pk *PublicKey) VerifySignatureV3(signed hash.Hash, sig *SignatureV3) (err error) { + if !pk.CanSign() { + return errors.InvalidArgumentError("public key cannot generate signatures") + } + + suffix := make([]byte, 5) + suffix[0] = byte(sig.SigType) + binary.BigEndian.PutUint32(suffix[1:], uint32(sig.CreationTime.Unix())) + signed.Write(suffix) + hashBytes := signed.Sum(nil) + + if hashBytes[0] != sig.HashTag[0] || hashBytes[1] != sig.HashTag[1] { + return errors.SignatureError("hash tag doesn't match") + } + + if pk.PubKeyAlgo != sig.PubKeyAlgo { + return errors.InvalidArgumentError("public key and signature use different algorithms") + } + + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly: + rsaPublicKey := pk.PublicKey.(*rsa.PublicKey) + if err = rsa.VerifyPKCS1v15(rsaPublicKey, sig.Hash, hashBytes, sig.RSASignature.bytes); err != nil { + return errors.SignatureError("RSA verification failure") + } + return + case PubKeyAlgoDSA: + dsaPublicKey := pk.PublicKey.(*dsa.PublicKey) + // Need to truncate hashBytes to match FIPS 186-3 section 4.6. + subgroupSize := (dsaPublicKey.Q.BitLen() + 7) / 8 + if len(hashBytes) > subgroupSize { + hashBytes = hashBytes[:subgroupSize] + } + if !dsa.Verify(dsaPublicKey, hashBytes, new(big.Int).SetBytes(sig.DSASigR.bytes), new(big.Int).SetBytes(sig.DSASigS.bytes)) { + return errors.SignatureError("DSA verification failure") + } + return nil + default: + panic("shouldn't happen") + } + panic("unreachable") +} + +// keySignatureHash returns a Hash of the message that needs to be signed for +// pk to assert a subkey relationship to signed. +func keySignatureHash(pk, signed signingKey, hashFunc crypto.Hash) (h hash.Hash, err error) { + if !hashFunc.Available() { + return nil, errors.UnsupportedError("hash function") + } + h = hashFunc.New() + + updateKeySignatureHash(pk, signed, h) + + return +} + +// updateKeySignatureHash does the actual hash updates for keySignatureHash. +func updateKeySignatureHash(pk, signed signingKey, h hash.Hash) { + // RFC 4880, section 5.2.4 + pk.SerializeSignaturePrefix(h) + pk.serializeWithoutHeaders(h) + signed.SerializeSignaturePrefix(h) + signed.serializeWithoutHeaders(h) +} + +// VerifyKeySignature returns nil iff sig is a valid signature, made by this +// public key, of signed. +func (pk *PublicKey) VerifyKeySignature(signed *PublicKey, sig *Signature) error { + h, err := keySignatureHash(pk, signed, sig.Hash) + if err != nil { + return err + } + if err = pk.VerifySignature(h, sig); err != nil { + return err + } + + if sig.FlagSign { + + // BUG(maxtaco) + // + // We should check for more than FlagsSign here, because if + // you read keys.go, we can sometimes use signing subkeys even if they're + // not explicitly flagged as such. However, so doing fails lots of currently + // working tests, so I'm not going to do much here. + // + // In other words, we should have this disjunction in the condition above: + // + // || (!sig.FlagsValid && pk.PubKeyAlgo.CanSign()) { + // + + // Signing subkeys must be cross-signed. See + // https://www.gnupg.org/faq/subkey-cross-certify.html. + if sig.EmbeddedSignature == nil { + return errors.StructuralError("signing subkey is missing cross-signature") + } + // Verify the cross-signature. This is calculated over the same + // data as the main signature, so we cannot just recursively + // call signed.VerifyKeySignature(...) + if h, err = keySignatureHash(pk, signed, sig.EmbeddedSignature.Hash); err != nil { + return errors.StructuralError("error while hashing for cross-signature: " + err.Error()) + } + if err := signed.VerifySignature(h, sig.EmbeddedSignature); err != nil { + return errors.StructuralError("error while verifying cross-signature: " + err.Error()) + } + } + + return nil +} + +func keyRevocationHash(pk signingKey, hashFunc crypto.Hash) (h hash.Hash, err error) { + if !hashFunc.Available() { + return nil, errors.UnsupportedError("hash function") + } + h = hashFunc.New() + + // RFC 4880, section 5.2.4 + pk.SerializeSignaturePrefix(h) + pk.serializeWithoutHeaders(h) + + return +} + +// VerifyRevocationSignature returns nil iff sig is a valid signature, made by this +// public key. +func (pk *PublicKey) VerifyRevocationSignature(revokedKey *PublicKey, sig *Signature) (err error) { + h, err := keyRevocationHash(revokedKey, sig.Hash) + if err != nil { + return err + } + return pk.VerifySignature(h, sig) +} + +type teeHash struct { + h hash.Hash +} + +func (t teeHash) Write(b []byte) (n int, err error) { + fmt.Printf("hash -> %s %+v\n", string(b), b) + return t.h.Write(b) +} +func (t teeHash) Sum(b []byte) []byte { return t.h.Sum(b) } +func (t teeHash) Reset() { t.h.Reset() } +func (t teeHash) Size() int { return t.h.Size() } +func (t teeHash) BlockSize() int { return t.h.BlockSize() } + +// userIdSignatureHash returns a Hash of the message that needs to be signed +// to assert that pk is a valid key for id. +func userIdSignatureHash(id string, pk *PublicKey, hashFunc crypto.Hash) (h hash.Hash, err error) { + if !hashFunc.Available() { + return nil, errors.UnsupportedError("hash function") + } + h = hashFunc.New() + + updateUserIdSignatureHash(id, pk, h) + + return +} + +// updateUserIdSignatureHash does the actual hash updates for +// userIdSignatureHash. +func updateUserIdSignatureHash(id string, pk *PublicKey, h hash.Hash) { + // RFC 4880, section 5.2.4 + pk.SerializeSignaturePrefix(h) + pk.serializeWithoutHeaders(h) + + var buf [5]byte + buf[0] = 0xb4 + buf[1] = byte(len(id) >> 24) + buf[2] = byte(len(id) >> 16) + buf[3] = byte(len(id) >> 8) + buf[4] = byte(len(id)) + h.Write(buf[:]) + h.Write([]byte(id)) + + return +} + +// VerifyUserIdSignature returns nil iff sig is a valid signature, made by this +// public key, that id is the identity of pub. +func (pk *PublicKey) VerifyUserIdSignature(id string, pub *PublicKey, sig *Signature) (err error) { + h, err := userIdSignatureHash(id, pub, sig.Hash) + if err != nil { + return err + } + return pk.VerifySignature(h, sig) +} + +// VerifyUserIdSignatureV3 returns nil iff sig is a valid signature, made by this +// public key, that id is the identity of pub. +func (pk *PublicKey) VerifyUserIdSignatureV3(id string, pub *PublicKey, sig *SignatureV3) (err error) { + h, err := userIdSignatureV3Hash(id, pub, sig.Hash) + if err != nil { + return err + } + return pk.VerifySignatureV3(h, sig) +} + +// KeyIdString returns the public key's fingerprint in capital hex +// (e.g. "6C7EE1B8621CC013"). +func (pk *PublicKey) KeyIdString() string { + return fmt.Sprintf("%X", pk.Fingerprint[12:20]) +} + +// KeyIdShortString returns the short form of public key's fingerprint +// in capital hex, as shown by gpg --list-keys (e.g. "621CC013"). +func (pk *PublicKey) KeyIdShortString() string { + return fmt.Sprintf("%X", pk.Fingerprint[16:20]) +} + +// A parsedMPI is used to store the contents of a big integer, along with the +// bit length that was specified in the original input. This allows the MPI to +// be reserialized exactly. +type parsedMPI struct { + bytes []byte + bitLength uint16 +} + +// writeMPIs is a utility function for serializing several big integers to the +// given Writer. +func writeMPIs(w io.Writer, mpis ...parsedMPI) (err error) { + for _, mpi := range mpis { + err = writeMPI(w, mpi.bitLength, mpi.bytes) + if err != nil { + return + } + } + return +} + +// BitLength returns the bit length for the given public key. Used for +// displaying key information, actual buffers and BigInts inside may +// have non-matching different size if the key is invalid. +func (pk *PublicKey) BitLength() (bitLength uint16, err error) { + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly: + bitLength = pk.n.bitLength + case PubKeyAlgoDSA: + bitLength = pk.p.bitLength + case PubKeyAlgoElGamal: + bitLength = pk.p.bitLength + case PubKeyAlgoECDH: + ecdhPublicKey := pk.PublicKey.(*ecdh.PublicKey) + bitLength = uint16(ecdhPublicKey.Curve.Params().BitSize) + case PubKeyAlgoECDSA: + ecdsaPublicKey := pk.PublicKey.(*ecdsa.PublicKey) + bitLength = uint16(ecdsaPublicKey.Curve.Params().BitSize) + case PubKeyAlgoEdDSA: + // EdDSA only support ed25519 curves right now, just return + // the length. Also, we don't have any PublicKey.Curve object + // to look the size up from. + bitLength = 256 + default: + err = errors.InvalidArgumentError("bad public-key algorithm") + } + return +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/public_key_v3.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/public_key_v3.go new file mode 100644 index 00000000..52474677 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/public_key_v3.go @@ -0,0 +1,280 @@ +// Copyright 2013 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "crypto" + "crypto/md5" + "encoding/binary" + "fmt" + "hash" + "io" + "math/big" + "strconv" + "time" + + "github.com/keybase/go-crypto/openpgp/errors" + "github.com/keybase/go-crypto/rsa" +) + +// PublicKeyV3 represents older, version 3 public keys. These keys are less secure and +// should not be used for signing or encrypting. They are supported here only for +// parsing version 3 key material and validating signatures. +// See RFC 4880, section 5.5.2. +type PublicKeyV3 struct { + CreationTime time.Time + DaysToExpire uint16 + PubKeyAlgo PublicKeyAlgorithm + PublicKey *rsa.PublicKey + Fingerprint [16]byte + KeyId uint64 + IsSubkey bool + + n, e parsedMPI +} + +// newRSAPublicKeyV3 returns a PublicKey that wraps the given rsa.PublicKey. +// Included here for testing purposes only. RFC 4880, section 5.5.2: +// "an implementation MUST NOT generate a V3 key, but MAY accept it." +func newRSAPublicKeyV3(creationTime time.Time, pub *rsa.PublicKey) *PublicKeyV3 { + pk := &PublicKeyV3{ + CreationTime: creationTime, + PublicKey: pub, + n: FromBig(pub.N), + e: FromBig(big.NewInt(int64(pub.E))), + } + + pk.setFingerPrintAndKeyId() + return pk +} + +func (pk *PublicKeyV3) parse(r io.Reader) (err error) { + // RFC 4880, section 5.5.2 + var buf [8]byte + if _, err = readFull(r, buf[:]); err != nil { + return + } + if buf[0] < 2 || buf[0] > 3 { + return errors.UnsupportedError("public key version") + } + pk.CreationTime = time.Unix(int64(uint32(buf[1])<<24|uint32(buf[2])<<16|uint32(buf[3])<<8|uint32(buf[4])), 0) + pk.DaysToExpire = binary.BigEndian.Uint16(buf[5:7]) + pk.PubKeyAlgo = PublicKeyAlgorithm(buf[7]) + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly: + err = pk.parseRSA(r) + default: + err = errors.UnsupportedError("public key type: " + strconv.Itoa(int(pk.PubKeyAlgo))) + } + if err != nil { + return + } + + pk.setFingerPrintAndKeyId() + return +} + +func (pk *PublicKeyV3) setFingerPrintAndKeyId() { + // RFC 4880, section 12.2 + fingerPrint := md5.New() + fingerPrint.Write(pk.n.bytes) + fingerPrint.Write(pk.e.bytes) + fingerPrint.Sum(pk.Fingerprint[:0]) + pk.KeyId = binary.BigEndian.Uint64(pk.n.bytes[len(pk.n.bytes)-8:]) +} + +// parseRSA parses RSA public key material from the given Reader. See RFC 4880, +// section 5.5.2. +func (pk *PublicKeyV3) parseRSA(r io.Reader) (err error) { + if pk.n.bytes, pk.n.bitLength, err = readMPI(r); err != nil { + return + } + if pk.e.bytes, pk.e.bitLength, err = readMPI(r); err != nil { + return + } + + // RFC 4880 Section 12.2 requires the low 8 bytes of the + // modulus to form the key id. + if len(pk.n.bytes) < 8 { + return errors.StructuralError("v3 public key modulus is too short") + } + if len(pk.e.bytes) > 7 { + err = errors.UnsupportedError("large public exponent") + return + } + rsa := &rsa.PublicKey{N: new(big.Int).SetBytes(pk.n.bytes)} + for i := 0; i < len(pk.e.bytes); i++ { + rsa.E <<= 8 + rsa.E |= int64(pk.e.bytes[i]) + } + pk.PublicKey = rsa + return +} + +// SerializeSignaturePrefix writes the prefix for this public key to the given Writer. +// The prefix is used when calculating a signature over this public key. See +// RFC 4880, section 5.2.4. +func (pk *PublicKeyV3) SerializeSignaturePrefix(w io.Writer) { + var pLength uint16 + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly: + pLength += 2 + uint16(len(pk.n.bytes)) + pLength += 2 + uint16(len(pk.e.bytes)) + default: + panic("unknown public key algorithm") + } + pLength += 6 + w.Write([]byte{0x99, byte(pLength >> 8), byte(pLength)}) + return +} + +func (pk *PublicKeyV3) Serialize(w io.Writer) (err error) { + length := 8 // 8 byte header + + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly: + length += 2 + len(pk.n.bytes) + length += 2 + len(pk.e.bytes) + default: + panic("unknown public key algorithm") + } + + packetType := packetTypePublicKey + if pk.IsSubkey { + packetType = packetTypePublicSubkey + } + if err = serializeHeader(w, packetType, length); err != nil { + return + } + return pk.serializeWithoutHeaders(w) +} + +// serializeWithoutHeaders marshals the PublicKey to w in the form of an +// OpenPGP public key packet, not including the packet header. +func (pk *PublicKeyV3) serializeWithoutHeaders(w io.Writer) (err error) { + var buf [8]byte + // Version 3 + buf[0] = 3 + // Creation time + t := uint32(pk.CreationTime.Unix()) + buf[1] = byte(t >> 24) + buf[2] = byte(t >> 16) + buf[3] = byte(t >> 8) + buf[4] = byte(t) + // Days to expire + buf[5] = byte(pk.DaysToExpire >> 8) + buf[6] = byte(pk.DaysToExpire) + // Public key algorithm + buf[7] = byte(pk.PubKeyAlgo) + + if _, err = w.Write(buf[:]); err != nil { + return + } + + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly: + return writeMPIs(w, pk.n, pk.e) + } + return errors.InvalidArgumentError("bad public-key algorithm") +} + +// CanSign returns true iff this public key can generate signatures +func (pk *PublicKeyV3) CanSign() bool { + return pk.PubKeyAlgo != PubKeyAlgoRSAEncryptOnly +} + +// VerifySignatureV3 returns nil iff sig is a valid signature, made by this +// public key, of the data hashed into signed. signed is mutated by this call. +func (pk *PublicKeyV3) VerifySignatureV3(signed hash.Hash, sig *SignatureV3) (err error) { + if !pk.CanSign() { + return errors.InvalidArgumentError("public key cannot generate signatures") + } + + suffix := make([]byte, 5) + suffix[0] = byte(sig.SigType) + binary.BigEndian.PutUint32(suffix[1:], uint32(sig.CreationTime.Unix())) + signed.Write(suffix) + hashBytes := signed.Sum(nil) + + if hashBytes[0] != sig.HashTag[0] || hashBytes[1] != sig.HashTag[1] { + return errors.SignatureError("hash tag doesn't match") + } + + if pk.PubKeyAlgo != sig.PubKeyAlgo { + return errors.InvalidArgumentError("public key and signature use different algorithms") + } + + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly: + if err = rsa.VerifyPKCS1v15(pk.PublicKey, sig.Hash, hashBytes, sig.RSASignature.bytes); err != nil { + return errors.SignatureError("RSA verification failure") + } + return + default: + // V3 public keys only support RSA. + panic("shouldn't happen") + } + panic("unreachable") +} + +// VerifyUserIdSignatureV3 returns nil iff sig is a valid signature, made by this +// public key, that id is the identity of pub. +func (pk *PublicKeyV3) VerifyUserIdSignatureV3(id string, pub *PublicKeyV3, sig *SignatureV3) (err error) { + h, err := userIdSignatureV3Hash(id, pk, sig.Hash) + if err != nil { + return err + } + return pk.VerifySignatureV3(h, sig) +} + +// VerifyKeySignatureV3 returns nil iff sig is a valid signature, made by this +// public key, of signed. +func (pk *PublicKeyV3) VerifyKeySignatureV3(signed *PublicKeyV3, sig *SignatureV3) (err error) { + h, err := keySignatureHash(pk, signed, sig.Hash) + if err != nil { + return err + } + return pk.VerifySignatureV3(h, sig) +} + +// userIdSignatureV3Hash returns a Hash of the message that needs to be signed +// to assert that pk is a valid key for id. +func userIdSignatureV3Hash(id string, pk signingKey, hfn crypto.Hash) (h hash.Hash, err error) { + if !hfn.Available() { + return nil, errors.UnsupportedError("hash function") + } + h = hfn.New() + + // RFC 4880, section 5.2.4 + pk.SerializeSignaturePrefix(h) + pk.serializeWithoutHeaders(h) + + h.Write([]byte(id)) + + return +} + +// KeyIdString returns the public key's fingerprint in capital hex +// (e.g. "6C7EE1B8621CC013"). +func (pk *PublicKeyV3) KeyIdString() string { + return fmt.Sprintf("%X", pk.KeyId) +} + +// KeyIdShortString returns the short form of public key's fingerprint +// in capital hex, as shown by gpg --list-keys (e.g. "621CC013"). +func (pk *PublicKeyV3) KeyIdShortString() string { + return fmt.Sprintf("%X", pk.KeyId&0xFFFFFFFF) +} + +// BitLength returns the bit length for the given public key. +func (pk *PublicKeyV3) BitLength() (bitLength uint16, err error) { + switch pk.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSAEncryptOnly, PubKeyAlgoRSASignOnly: + bitLength = pk.n.bitLength + default: + err = errors.InvalidArgumentError("bad public-key algorithm") + } + return +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/reader.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/reader.go new file mode 100644 index 00000000..957b3b89 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/reader.go @@ -0,0 +1,76 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "io" + + "github.com/keybase/go-crypto/openpgp/errors" +) + +// Reader reads packets from an io.Reader and allows packets to be 'unread' so +// that they result from the next call to Next. +type Reader struct { + q []Packet + readers []io.Reader +} + +// New io.Readers are pushed when a compressed or encrypted packet is processed +// and recursively treated as a new source of packets. However, a carefully +// crafted packet can trigger an infinite recursive sequence of packets. See +// http://mumble.net/~campbell/misc/pgp-quine +// https://web.nvd.nist.gov/view/vuln/detail?vulnId=CVE-2013-4402 +// This constant limits the number of recursive packets that may be pushed. +const maxReaders = 32 + +// Next returns the most recently unread Packet, or reads another packet from +// the top-most io.Reader. Unknown packet types are skipped. +func (r *Reader) Next() (p Packet, err error) { + if len(r.q) > 0 { + p = r.q[len(r.q)-1] + r.q = r.q[:len(r.q)-1] + return + } + + for len(r.readers) > 0 { + p, err = Read(r.readers[len(r.readers)-1]) + if err == nil { + return + } + if err == io.EOF { + r.readers = r.readers[:len(r.readers)-1] + continue + } + if _, ok := err.(errors.UnknownPacketTypeError); !ok { + return nil, err + } + } + return nil, io.EOF +} + +// Push causes the Reader to start reading from a new io.Reader. When an EOF +// error is seen from the new io.Reader, it is popped and the Reader continues +// to read from the next most recent io.Reader. Push returns a StructuralError +// if pushing the reader would exceed the maximum recursion level, otherwise it +// returns nil. +func (r *Reader) Push(reader io.Reader) (err error) { + if len(r.readers) >= maxReaders { + return errors.StructuralError("too many layers of packets") + } + r.readers = append(r.readers, reader) + return nil +} + +// Unread causes the given Packet to be returned from the next call to Next. +func (r *Reader) Unread(p Packet) { + r.q = append(r.q, p) +} + +func NewReader(r io.Reader) *Reader { + return &Reader{ + q: nil, + readers: []io.Reader{r}, + } +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/signature.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/signature.go new file mode 100644 index 00000000..449e5af1 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/signature.go @@ -0,0 +1,882 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "bytes" + "crypto" + "crypto/dsa" + "crypto/ecdsa" + "encoding/binary" + "hash" + "io" + "strconv" + "time" + + "github.com/keybase/go-crypto/openpgp/errors" + "github.com/keybase/go-crypto/openpgp/s2k" + "github.com/keybase/go-crypto/rsa" +) + +const ( + // See RFC 4880, section 5.2.3.21 for details. + KeyFlagCertify = 1 << iota + KeyFlagSign + KeyFlagEncryptCommunications + KeyFlagEncryptStorage +) + +// Signer can be implemented by application code to do actual signing. +type Signer interface { + hash.Hash + Sign(sig *Signature) error + KeyId() uint64 + PublicKeyAlgo() PublicKeyAlgorithm +} + +// RevocationKey represents designated revoker packet. See RFC 4880 +// section 5.2.3.15 for details. +type RevocationKey struct { + Class byte + PublicKeyAlgo PublicKeyAlgorithm + Fingerprint []byte +} + +// KeyFlagBits holds boolean whether any usage flags were provided in +// the signature and BitField with KeyFlag* flags. +type KeyFlagBits struct { + Valid bool + BitField byte +} + +// Signature represents a signature. See RFC 4880, section 5.2. +type Signature struct { + SigType SignatureType + PubKeyAlgo PublicKeyAlgorithm + Hash crypto.Hash + + // HashSuffix is extra data that is hashed in after the signed data. + HashSuffix []byte + // HashTag contains the first two bytes of the hash for fast rejection + // of bad signed data. + HashTag [2]byte + CreationTime time.Time + + RSASignature parsedMPI + DSASigR, DSASigS parsedMPI + ECDSASigR, ECDSASigS parsedMPI + EdDSASigR, EdDSASigS parsedMPI + + // rawSubpackets contains the unparsed subpackets, in order. + rawSubpackets []outputSubpacket + + // The following are optional so are nil when not included in the + // signature. + + SigLifetimeSecs, KeyLifetimeSecs *uint32 + PreferredSymmetric, PreferredHash, PreferredCompression []uint8 + PreferredKeyServer string + IssuerKeyId *uint64 + IsPrimaryId *bool + IssuerFingerprint []byte + + // FlagsValid is set if any flags were given. See RFC 4880, section + // 5.2.3.21 for details. + FlagsValid bool + FlagCertify, FlagSign, FlagEncryptCommunications, FlagEncryptStorage bool + + // RevocationReason is set if this signature has been revoked. + // See RFC 4880, section 5.2.3.23 for details. + RevocationReason *uint8 + RevocationReasonText string + + // PolicyURI is optional. See RFC 4880, Section 5.2.3.20 for details + PolicyURI string + + // Regex is a regex that can match a PGP UID. See RFC 4880, 5.2.3.14 for details + Regex string + + // MDC is set if this signature has a feature packet that indicates + // support for MDC subpackets. + MDC bool + + // EmbeddedSignature, if non-nil, is a signature of the parent key, by + // this key. This prevents an attacker from claiming another's signing + // subkey as their own. + EmbeddedSignature *Signature + + // StubbedOutCriticalError is not fail-stop, since it shouldn't break key parsing + // when appearing in WoT-style cross signatures. But it should prevent a signature + // from being applied to a primary or subkey. + StubbedOutCriticalError error + + // DesignaterRevoker will be present if this signature certifies a + // designated revoking key id (3rd party key that can sign + // revocation for this key). + DesignatedRevoker *RevocationKey + + outSubpackets []outputSubpacket +} + +func (sig *Signature) parse(r io.Reader) (err error) { + // RFC 4880, section 5.2.3 + var buf [5]byte + _, err = readFull(r, buf[:1]) + if err != nil { + return + } + if buf[0] != 4 { + err = errors.UnsupportedError("signature packet version " + strconv.Itoa(int(buf[0]))) + return + } + + _, err = readFull(r, buf[:5]) + if err != nil { + return + } + sig.SigType = SignatureType(buf[0]) + sig.PubKeyAlgo = PublicKeyAlgorithm(buf[1]) + switch sig.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly, PubKeyAlgoDSA, PubKeyAlgoECDSA, PubKeyAlgoEdDSA: + default: + err = errors.UnsupportedError("public key algorithm " + strconv.Itoa(int(sig.PubKeyAlgo))) + return + } + + var ok bool + sig.Hash, ok = s2k.HashIdToHash(buf[2]) + if !ok { + return errors.UnsupportedError("hash function " + strconv.Itoa(int(buf[2]))) + } + + hashedSubpacketsLength := int(buf[3])<<8 | int(buf[4]) + l := 6 + hashedSubpacketsLength + sig.HashSuffix = make([]byte, l+6) + sig.HashSuffix[0] = 4 + copy(sig.HashSuffix[1:], buf[:5]) + hashedSubpackets := sig.HashSuffix[6:l] + _, err = readFull(r, hashedSubpackets) + if err != nil { + return + } + // See RFC 4880, section 5.2.4 + trailer := sig.HashSuffix[l:] + trailer[0] = 4 + trailer[1] = 0xff + trailer[2] = uint8(l >> 24) + trailer[3] = uint8(l >> 16) + trailer[4] = uint8(l >> 8) + trailer[5] = uint8(l) + + err = parseSignatureSubpackets(sig, hashedSubpackets, true) + if err != nil { + return + } + + _, err = readFull(r, buf[:2]) + if err != nil { + return + } + unhashedSubpacketsLength := int(buf[0])<<8 | int(buf[1]) + unhashedSubpackets := make([]byte, unhashedSubpacketsLength) + _, err = readFull(r, unhashedSubpackets) + if err != nil { + return + } + err = parseSignatureSubpackets(sig, unhashedSubpackets, false) + if err != nil { + return + } + + _, err = readFull(r, sig.HashTag[:2]) + if err != nil { + return + } + + switch sig.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly: + sig.RSASignature.bytes, sig.RSASignature.bitLength, err = readMPI(r) + case PubKeyAlgoDSA: + sig.DSASigR.bytes, sig.DSASigR.bitLength, err = readMPI(r) + if err == nil { + sig.DSASigS.bytes, sig.DSASigS.bitLength, err = readMPI(r) + } + case PubKeyAlgoEdDSA: + sig.EdDSASigR.bytes, sig.EdDSASigR.bitLength, err = readMPI(r) + if err == nil { + sig.EdDSASigS.bytes, sig.EdDSASigS.bitLength, err = readMPI(r) + } + case PubKeyAlgoECDSA: + sig.ECDSASigR.bytes, sig.ECDSASigR.bitLength, err = readMPI(r) + if err == nil { + sig.ECDSASigS.bytes, sig.ECDSASigS.bitLength, err = readMPI(r) + } + default: + panic("unreachable") + } + return +} + +// parseSignatureSubpackets parses subpackets of the main signature packet. See +// RFC 4880, section 5.2.3.1. +func parseSignatureSubpackets(sig *Signature, subpackets []byte, isHashed bool) (err error) { + for len(subpackets) > 0 { + subpackets, err = parseSignatureSubpacket(sig, subpackets, isHashed) + if err != nil { + return + } + } + + if sig.CreationTime.IsZero() { + err = errors.StructuralError("no creation time in signature") + } + + return +} + +type signatureSubpacketType uint8 + +const ( + creationTimeSubpacket signatureSubpacketType = 2 + signatureExpirationSubpacket signatureSubpacketType = 3 + regularExpressionSubpacket signatureSubpacketType = 6 + keyExpirationSubpacket signatureSubpacketType = 9 + prefSymmetricAlgosSubpacket signatureSubpacketType = 11 + revocationKey signatureSubpacketType = 12 + issuerSubpacket signatureSubpacketType = 16 + prefHashAlgosSubpacket signatureSubpacketType = 21 + prefCompressionSubpacket signatureSubpacketType = 22 + prefKeyServerSubpacket signatureSubpacketType = 24 + primaryUserIdSubpacket signatureSubpacketType = 25 + policyURISubpacket signatureSubpacketType = 26 + keyFlagsSubpacket signatureSubpacketType = 27 + reasonForRevocationSubpacket signatureSubpacketType = 29 + featuresSubpacket signatureSubpacketType = 30 + embeddedSignatureSubpacket signatureSubpacketType = 32 + issuerFingerprint signatureSubpacketType = 33 +) + +// parseSignatureSubpacket parses a single subpacket. len(subpacket) is >= 1. +func parseSignatureSubpacket(sig *Signature, subpacket []byte, isHashed bool) (rest []byte, err error) { + // RFC 4880, section 5.2.3.1 + var ( + length uint32 + packetType signatureSubpacketType + isCritical bool + ) + switch { + case subpacket[0] < 192: + length = uint32(subpacket[0]) + subpacket = subpacket[1:] + case subpacket[0] < 255: + if len(subpacket) < 2 { + goto Truncated + } + length = uint32(subpacket[0]-192)<<8 + uint32(subpacket[1]) + 192 + subpacket = subpacket[2:] + default: + if len(subpacket) < 5 { + goto Truncated + } + length = uint32(subpacket[1])<<24 | + uint32(subpacket[2])<<16 | + uint32(subpacket[3])<<8 | + uint32(subpacket[4]) + subpacket = subpacket[5:] + } + if length > uint32(len(subpacket)) { + goto Truncated + } + rest = subpacket[length:] + subpacket = subpacket[:length] + if len(subpacket) == 0 { + err = errors.StructuralError("zero length signature subpacket") + return + } + packetType = signatureSubpacketType(subpacket[0] & 0x7f) + isCritical = subpacket[0]&0x80 == 0x80 + subpacket = subpacket[1:] + sig.rawSubpackets = append(sig.rawSubpackets, outputSubpacket{isHashed, packetType, isCritical, subpacket}) + switch packetType { + case creationTimeSubpacket: + if !isHashed { + err = errors.StructuralError("signature creation time in non-hashed area") + return + } + if len(subpacket) != 4 { + err = errors.StructuralError("signature creation time not four bytes") + return + } + t := binary.BigEndian.Uint32(subpacket) + sig.CreationTime = time.Unix(int64(t), 0) + case signatureExpirationSubpacket: + // Signature expiration time, section 5.2.3.10 + if !isHashed { + return + } + if len(subpacket) != 4 { + err = errors.StructuralError("expiration subpacket with bad length") + return + } + sig.SigLifetimeSecs = new(uint32) + *sig.SigLifetimeSecs = binary.BigEndian.Uint32(subpacket) + case keyExpirationSubpacket: + // Key expiration time, section 5.2.3.6 + if !isHashed { + return + } + if len(subpacket) != 4 { + err = errors.StructuralError("key expiration subpacket with bad length") + return + } + sig.KeyLifetimeSecs = new(uint32) + *sig.KeyLifetimeSecs = binary.BigEndian.Uint32(subpacket) + case prefSymmetricAlgosSubpacket: + // Preferred symmetric algorithms, section 5.2.3.7 + if !isHashed { + return + } + sig.PreferredSymmetric = make([]byte, len(subpacket)) + copy(sig.PreferredSymmetric, subpacket) + case issuerSubpacket: + // Issuer, section 5.2.3.5 + if len(subpacket) != 8 { + err = errors.StructuralError("issuer subpacket with bad length") + return + } + sig.IssuerKeyId = new(uint64) + *sig.IssuerKeyId = binary.BigEndian.Uint64(subpacket) + case prefHashAlgosSubpacket: + // Preferred hash algorithms, section 5.2.3.8 + if !isHashed { + return + } + sig.PreferredHash = make([]byte, len(subpacket)) + copy(sig.PreferredHash, subpacket) + case prefCompressionSubpacket: + // Preferred compression algorithms, section 5.2.3.9 + if !isHashed { + return + } + sig.PreferredCompression = make([]byte, len(subpacket)) + copy(sig.PreferredCompression, subpacket) + case primaryUserIdSubpacket: + // Primary User ID, section 5.2.3.19 + if !isHashed { + return + } + if len(subpacket) != 1 { + err = errors.StructuralError("primary user id subpacket with bad length") + return + } + sig.IsPrimaryId = new(bool) + if subpacket[0] > 0 { + *sig.IsPrimaryId = true + } + case keyFlagsSubpacket: + // Key flags, section 5.2.3.21 + if !isHashed { + return + } + if len(subpacket) == 0 { + err = errors.StructuralError("empty key flags subpacket") + return + } + if subpacket[0] != 0 { + sig.FlagsValid = true + if subpacket[0]&KeyFlagCertify != 0 { + sig.FlagCertify = true + } + if subpacket[0]&KeyFlagSign != 0 { + sig.FlagSign = true + } + if subpacket[0]&KeyFlagEncryptCommunications != 0 { + sig.FlagEncryptCommunications = true + } + if subpacket[0]&KeyFlagEncryptStorage != 0 { + sig.FlagEncryptStorage = true + } + } + case reasonForRevocationSubpacket: + // Reason For Revocation, section 5.2.3.23 + if !isHashed { + return + } + if len(subpacket) == 0 { + err = errors.StructuralError("empty revocation reason subpacket") + return + } + sig.RevocationReason = new(uint8) + *sig.RevocationReason = subpacket[0] + sig.RevocationReasonText = string(subpacket[1:]) + case featuresSubpacket: + // Features subpacket, section 5.2.3.24 specifies a very general + // mechanism for OpenPGP implementations to signal support for new + // features. In practice, the subpacket is used exclusively to + // indicate support for MDC-protected encryption. + sig.MDC = len(subpacket) >= 1 && subpacket[0]&1 == 1 + case embeddedSignatureSubpacket: + // Only usage is in signatures that cross-certify + // signing subkeys. section 5.2.3.26 describes the + // format, with its usage described in section 11.1 + if sig.EmbeddedSignature != nil { + err = errors.StructuralError("Cannot have multiple embedded signatures") + return + } + sig.EmbeddedSignature = new(Signature) + // Embedded signatures are required to be v4 signatures see + // section 12.1. However, we only parse v4 signatures in this + // file anyway. + if err := sig.EmbeddedSignature.parse(bytes.NewBuffer(subpacket)); err != nil { + return nil, err + } + if sigType := sig.EmbeddedSignature.SigType; sigType != SigTypePrimaryKeyBinding { + return nil, errors.StructuralError("cross-signature has unexpected type " + strconv.Itoa(int(sigType))) + } + case policyURISubpacket: + // See RFC 4880, Section 5.2.3.20 + sig.PolicyURI = string(subpacket[:]) + case regularExpressionSubpacket: + sig.Regex = string(subpacket[:]) + if isCritical { + sig.StubbedOutCriticalError = errors.UnsupportedError("regex support is stubbed out") + } + case prefKeyServerSubpacket: + sig.PreferredKeyServer = string(subpacket[:]) + case issuerFingerprint: + // The first byte is how many bytes the fingerprint is, but we'll just + // read until the end of the subpacket, so we'll ignore it. + sig.IssuerFingerprint = append([]byte{}, subpacket[1:]...) + case revocationKey: + // Authorizes the specified key to issue revocation signatures + // for a key. + + // TODO: Class octet must have bit 0x80 set. If the bit 0x40 + // is set, then this means that the revocation information is + // sensitive. + sig.DesignatedRevoker = &RevocationKey{ + Class: subpacket[0], + PublicKeyAlgo: PublicKeyAlgorithm(subpacket[1]), + Fingerprint: append([]byte{}, subpacket[2:]...), + } + default: + if isCritical { + err = errors.UnsupportedError("unknown critical signature subpacket type " + strconv.Itoa(int(packetType))) + return + } + } + return + +Truncated: + err = errors.StructuralError("signature subpacket truncated") + return +} + +// subpacketLengthLength returns the length, in bytes, of an encoded length value. +func subpacketLengthLength(length int) int { + if length < 192 { + return 1 + } + if length < 16320 { + return 2 + } + return 5 +} + +// serializeSubpacketLength marshals the given length into to. +func serializeSubpacketLength(to []byte, length int) int { + // RFC 4880, Section 4.2.2. + if length < 192 { + to[0] = byte(length) + return 1 + } + if length < 16320 { + length -= 192 + to[0] = byte((length >> 8) + 192) + to[1] = byte(length) + return 2 + } + to[0] = 255 + to[1] = byte(length >> 24) + to[2] = byte(length >> 16) + to[3] = byte(length >> 8) + to[4] = byte(length) + return 5 +} + +// subpacketsLength returns the serialized length, in bytes, of the given +// subpackets. +func subpacketsLength(subpackets []outputSubpacket, hashed bool) (length int) { + for _, subpacket := range subpackets { + if subpacket.hashed == hashed { + length += subpacketLengthLength(len(subpacket.contents) + 1) + length += 1 // type byte + length += len(subpacket.contents) + } + } + return +} + +// serializeSubpackets marshals the given subpackets into to. +func serializeSubpackets(to []byte, subpackets []outputSubpacket, hashed bool) { + for _, subpacket := range subpackets { + if subpacket.hashed == hashed { + n := serializeSubpacketLength(to, len(subpacket.contents)+1) + to[n] = byte(subpacket.subpacketType) + to = to[1+n:] + n = copy(to, subpacket.contents) + to = to[n:] + } + } + return +} + +// KeyExpired returns whether sig is a self-signature of a key that has +// expired. +func (sig *Signature) KeyExpired(currentTime time.Time) bool { + if sig.KeyLifetimeSecs == nil { + return false + } + expiry := sig.CreationTime.Add(time.Duration(*sig.KeyLifetimeSecs) * time.Second) + return currentTime.After(expiry) +} + +// ExpiresBeforeOther checks if other signature has expiration at +// later date than sig. +func (sig *Signature) ExpiresBeforeOther(other *Signature) bool { + if sig.KeyLifetimeSecs == nil { + // This sig never expires, or has infinitely long expiration + // time. + return false + } else if other.KeyLifetimeSecs == nil { + // This sig expires at some non-infinite point, but the other + // sig never expires. + return true + } + + getExpiryDate := func(s *Signature) time.Time { + return s.CreationTime.Add(time.Duration(*s.KeyLifetimeSecs) * time.Second) + } + + return getExpiryDate(other).After(getExpiryDate(sig)) +} + +// buildHashSuffix constructs the HashSuffix member of sig in preparation for signing. +func (sig *Signature) buildHashSuffix() (err error) { + hashedSubpacketsLen := subpacketsLength(sig.outSubpackets, true) + + var ok bool + l := 6 + hashedSubpacketsLen + sig.HashSuffix = make([]byte, l+6) + sig.HashSuffix[0] = 4 + sig.HashSuffix[1] = uint8(sig.SigType) + sig.HashSuffix[2] = uint8(sig.PubKeyAlgo) + sig.HashSuffix[3], ok = s2k.HashToHashId(sig.Hash) + if !ok { + sig.HashSuffix = nil + return errors.InvalidArgumentError("hash cannot be represented in OpenPGP: " + strconv.Itoa(int(sig.Hash))) + } + sig.HashSuffix[4] = byte(hashedSubpacketsLen >> 8) + sig.HashSuffix[5] = byte(hashedSubpacketsLen) + serializeSubpackets(sig.HashSuffix[6:l], sig.outSubpackets, true) + trailer := sig.HashSuffix[l:] + trailer[0] = 4 + trailer[1] = 0xff + trailer[2] = byte(l >> 24) + trailer[3] = byte(l >> 16) + trailer[4] = byte(l >> 8) + trailer[5] = byte(l) + return +} + +func (sig *Signature) signPrepareHash(h hash.Hash) (digest []byte, err error) { + err = sig.buildHashSuffix() + if err != nil { + return + } + + h.Write(sig.HashSuffix) + digest = h.Sum(nil) + copy(sig.HashTag[:], digest) + return +} + +// Sign signs a message with a private key. The hash, h, must contain +// the hash of the message to be signed and will be mutated by this function. +// On success, the signature is stored in sig. Call Serialize to write it out. +// If config is nil, sensible defaults will be used. +func (sig *Signature) Sign(h hash.Hash, priv *PrivateKey, config *Config) (err error) { + signer, hashIsSigner := h.(Signer) + + if !hashIsSigner && (priv == nil || priv.PrivateKey == nil) { + err = errors.InvalidArgumentError("attempting to sign with nil PrivateKey") + return + } + + sig.outSubpackets = sig.buildSubpackets() + digest, err := sig.signPrepareHash(h) + if err != nil { + return + } + + if hashIsSigner { + err = signer.Sign(sig) + return + } + + switch priv.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly: + sig.RSASignature.bytes, err = rsa.SignPKCS1v15(config.Random(), priv.PrivateKey.(*rsa.PrivateKey), sig.Hash, digest) + sig.RSASignature.bitLength = uint16(8 * len(sig.RSASignature.bytes)) + case PubKeyAlgoDSA: + dsaPriv := priv.PrivateKey.(*dsa.PrivateKey) + + // Need to truncate hashBytes to match FIPS 186-3 section 4.6. + subgroupSize := (dsaPriv.Q.BitLen() + 7) / 8 + if len(digest) > subgroupSize { + digest = digest[:subgroupSize] + } + r, s, err := dsa.Sign(config.Random(), dsaPriv, digest) + if err == nil { + sig.DSASigR.bytes = r.Bytes() + sig.DSASigR.bitLength = uint16(8 * len(sig.DSASigR.bytes)) + sig.DSASigS.bytes = s.Bytes() + sig.DSASigS.bitLength = uint16(8 * len(sig.DSASigS.bytes)) + } + case PubKeyAlgoECDSA: + r, s, err := ecdsa.Sign(config.Random(), priv.PrivateKey.(*ecdsa.PrivateKey), digest) + if err == nil { + sig.ECDSASigR = FromBig(r) + sig.ECDSASigS = FromBig(s) + } + case PubKeyAlgoEdDSA: + r, s, err := priv.PrivateKey.(*EdDSAPrivateKey).Sign(digest) + if err == nil { + sig.EdDSASigR = FromBytes(r) + sig.EdDSASigS = FromBytes(s) + } + default: + err = errors.UnsupportedError("public key algorithm: " + strconv.Itoa(int(sig.PubKeyAlgo))) + } + + return +} + +// SignUserId computes a signature from priv, asserting that pub is a valid +// key for the identity id. On success, the signature is stored in sig. Call +// Serialize to write it out. +// If config is nil, sensible defaults will be used. +func (sig *Signature) SignUserId(id string, pub *PublicKey, priv *PrivateKey, config *Config) error { + h, err := userIdSignatureHash(id, pub, sig.Hash) + if err != nil { + return err + } + return sig.Sign(h, priv, config) +} + +// SignUserIdWithSigner computes a signature from priv, asserting that pub is a +// valid key for the identity id. On success, the signature is stored in sig. +// Call Serialize to write it out. +// If config is nil, sensible defaults will be used. +func (sig *Signature) SignUserIdWithSigner(id string, pub *PublicKey, s Signer, config *Config) error { + updateUserIdSignatureHash(id, pub, s) + + return sig.Sign(s, nil, config) +} + +// SignKey computes a signature from priv, asserting that pub is a subkey. On +// success, the signature is stored in sig. Call Serialize to write it out. +// If config is nil, sensible defaults will be used. +func (sig *Signature) SignKey(pub *PublicKey, priv *PrivateKey, config *Config) error { + h, err := keySignatureHash(&priv.PublicKey, pub, sig.Hash) + if err != nil { + return err + } + return sig.Sign(h, priv, config) +} + +// SignKeyWithSigner computes a signature using s, asserting that +// signeePubKey is a subkey. On success, the signature is stored in sig. Call +// Serialize to write it out. If config is nil, sensible defaults will be used. +func (sig *Signature) SignKeyWithSigner(signeePubKey *PublicKey, signerPubKey *PublicKey, s Signer, config *Config) error { + updateKeySignatureHash(signerPubKey, signeePubKey, s) + + return sig.Sign(s, nil, config) +} + +// Serialize marshals sig to w. Sign, SignUserId or SignKey must have been +// called first. +func (sig *Signature) Serialize(w io.Writer) (err error) { + if len(sig.outSubpackets) == 0 { + sig.outSubpackets = sig.rawSubpackets + } + if sig.RSASignature.bytes == nil && + sig.DSASigR.bytes == nil && + sig.ECDSASigR.bytes == nil && + sig.EdDSASigR.bytes == nil { + return errors.InvalidArgumentError("Signature: need to call Sign, SignUserId or SignKey before Serialize") + } + + sigLength := 0 + switch sig.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly: + sigLength = 2 + len(sig.RSASignature.bytes) + case PubKeyAlgoDSA: + sigLength = 2 + len(sig.DSASigR.bytes) + sigLength += 2 + len(sig.DSASigS.bytes) + case PubKeyAlgoEdDSA: + sigLength = 2 + len(sig.EdDSASigR.bytes) + sigLength += 2 + len(sig.EdDSASigS.bytes) + case PubKeyAlgoECDSA: + sigLength = 2 + len(sig.ECDSASigR.bytes) + sigLength += 2 + len(sig.ECDSASigS.bytes) + default: + panic("impossible") + } + + unhashedSubpacketsLen := subpacketsLength(sig.outSubpackets, false) + length := len(sig.HashSuffix) - 6 /* trailer not included */ + + 2 /* length of unhashed subpackets */ + unhashedSubpacketsLen + + 2 /* hash tag */ + sigLength + err = serializeHeader(w, packetTypeSignature, length) + if err != nil { + return + } + + _, err = w.Write(sig.HashSuffix[:len(sig.HashSuffix)-6]) + if err != nil { + return + } + + unhashedSubpackets := make([]byte, 2+unhashedSubpacketsLen) + unhashedSubpackets[0] = byte(unhashedSubpacketsLen >> 8) + unhashedSubpackets[1] = byte(unhashedSubpacketsLen) + serializeSubpackets(unhashedSubpackets[2:], sig.outSubpackets, false) + + _, err = w.Write(unhashedSubpackets) + if err != nil { + return + } + _, err = w.Write(sig.HashTag[:]) + if err != nil { + return + } + + switch sig.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly: + err = writeMPIs(w, sig.RSASignature) + case PubKeyAlgoDSA: + err = writeMPIs(w, sig.DSASigR, sig.DSASigS) + case PubKeyAlgoEdDSA: + err = writeMPIs(w, sig.EdDSASigR, sig.EdDSASigS) + case PubKeyAlgoECDSA: + err = writeMPIs(w, sig.ECDSASigR, sig.ECDSASigS) + default: + panic("impossible") + } + return +} + +// outputSubpacket represents a subpacket to be marshaled. +type outputSubpacket struct { + hashed bool // true if this subpacket is in the hashed area. + subpacketType signatureSubpacketType + isCritical bool + contents []byte +} + +func (sig *Signature) buildSubpackets() (subpackets []outputSubpacket) { + creationTime := make([]byte, 4) + binary.BigEndian.PutUint32(creationTime, uint32(sig.CreationTime.Unix())) + subpackets = append(subpackets, outputSubpacket{true, creationTimeSubpacket, false, creationTime}) + + if sig.IssuerKeyId != nil { + keyId := make([]byte, 8) + binary.BigEndian.PutUint64(keyId, *sig.IssuerKeyId) + subpackets = append(subpackets, outputSubpacket{true, issuerSubpacket, false, keyId}) + } + + if sig.SigLifetimeSecs != nil && *sig.SigLifetimeSecs != 0 { + sigLifetime := make([]byte, 4) + binary.BigEndian.PutUint32(sigLifetime, *sig.SigLifetimeSecs) + subpackets = append(subpackets, outputSubpacket{true, signatureExpirationSubpacket, true, sigLifetime}) + } + + // Key flags may only appear in self-signatures or certification signatures. + + if sig.FlagsValid { + subpackets = append(subpackets, outputSubpacket{true, keyFlagsSubpacket, false, []byte{sig.GetKeyFlags().BitField}}) + } + + // The following subpackets may only appear in self-signatures + + if sig.KeyLifetimeSecs != nil && *sig.KeyLifetimeSecs != 0 { + keyLifetime := make([]byte, 4) + binary.BigEndian.PutUint32(keyLifetime, *sig.KeyLifetimeSecs) + subpackets = append(subpackets, outputSubpacket{true, keyExpirationSubpacket, true, keyLifetime}) + } + + if sig.IsPrimaryId != nil && *sig.IsPrimaryId { + subpackets = append(subpackets, outputSubpacket{true, primaryUserIdSubpacket, false, []byte{1}}) + } + + if len(sig.PreferredSymmetric) > 0 { + subpackets = append(subpackets, outputSubpacket{true, prefSymmetricAlgosSubpacket, false, sig.PreferredSymmetric}) + } + + if len(sig.PreferredHash) > 0 { + subpackets = append(subpackets, outputSubpacket{true, prefHashAlgosSubpacket, false, sig.PreferredHash}) + } + + if len(sig.PreferredCompression) > 0 { + subpackets = append(subpackets, outputSubpacket{true, prefCompressionSubpacket, false, sig.PreferredCompression}) + } + + return +} + +func (sig *Signature) GetKeyFlags() (ret KeyFlagBits) { + if !sig.FlagsValid { + return ret + } + + ret.Valid = true + if sig.FlagCertify { + ret.BitField |= KeyFlagCertify + } + if sig.FlagSign { + ret.BitField |= KeyFlagSign + } + if sig.FlagEncryptCommunications { + ret.BitField |= KeyFlagEncryptCommunications + } + if sig.FlagEncryptStorage { + ret.BitField |= KeyFlagEncryptStorage + } + return ret +} + +func (f *KeyFlagBits) HasFlagCertify() bool { + return f.BitField&KeyFlagCertify != 0 +} + +func (f *KeyFlagBits) HasFlagSign() bool { + return f.BitField&KeyFlagSign != 0 +} + +func (f *KeyFlagBits) HasFlagEncryptCommunications() bool { + return f.BitField&KeyFlagEncryptCommunications != 0 +} + +func (f *KeyFlagBits) HasFlagEncryptStorage() bool { + return f.BitField&KeyFlagEncryptStorage != 0 +} + +func (f *KeyFlagBits) Merge(other KeyFlagBits) { + if other.Valid { + f.Valid = true + f.BitField |= other.BitField + } +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/signature_v3.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/signature_v3.go new file mode 100644 index 00000000..dfca651b --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/signature_v3.go @@ -0,0 +1,146 @@ +// Copyright 2013 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "crypto" + "encoding/binary" + "fmt" + "io" + "strconv" + "time" + + "github.com/keybase/go-crypto/openpgp/errors" + "github.com/keybase/go-crypto/openpgp/s2k" +) + +// SignatureV3 represents older version 3 signatures. These signatures are less secure +// than version 4 and should not be used to create new signatures. They are included +// here for backwards compatibility to read and validate with older key material. +// See RFC 4880, section 5.2.2. +type SignatureV3 struct { + SigType SignatureType + CreationTime time.Time + IssuerKeyId uint64 + PubKeyAlgo PublicKeyAlgorithm + Hash crypto.Hash + HashTag [2]byte + + RSASignature parsedMPI + DSASigR, DSASigS parsedMPI +} + +func (sig *SignatureV3) parse(r io.Reader) (err error) { + // RFC 4880, section 5.2.2 + var buf [8]byte + if _, err = readFull(r, buf[:1]); err != nil { + return + } + if buf[0] < 2 || buf[0] > 3 { + err = errors.UnsupportedError("signature packet version " + strconv.Itoa(int(buf[0]))) + return + } + if _, err = readFull(r, buf[:1]); err != nil { + return + } + if buf[0] != 5 { + err = errors.UnsupportedError( + "invalid hashed material length " + strconv.Itoa(int(buf[0]))) + return + } + + // Read hashed material: signature type + creation time + if _, err = readFull(r, buf[:5]); err != nil { + return + } + sig.SigType = SignatureType(buf[0]) + t := binary.BigEndian.Uint32(buf[1:5]) + sig.CreationTime = time.Unix(int64(t), 0) + + // Eight-octet Key ID of signer. + if _, err = readFull(r, buf[:8]); err != nil { + return + } + sig.IssuerKeyId = binary.BigEndian.Uint64(buf[:]) + + // Public-key and hash algorithm + if _, err = readFull(r, buf[:2]); err != nil { + return + } + sig.PubKeyAlgo = PublicKeyAlgorithm(buf[0]) + switch sig.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly, PubKeyAlgoDSA: + default: + err = errors.UnsupportedError("public key algorithm " + strconv.Itoa(int(sig.PubKeyAlgo))) + return + } + var ok bool + if sig.Hash, ok = s2k.HashIdToHash(buf[1]); !ok { + return errors.UnsupportedError("hash function " + strconv.Itoa(int(buf[2]))) + } + + // Two-octet field holding left 16 bits of signed hash value. + if _, err = readFull(r, sig.HashTag[:2]); err != nil { + return + } + + switch sig.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly: + sig.RSASignature.bytes, sig.RSASignature.bitLength, err = readMPI(r) + case PubKeyAlgoDSA: + if sig.DSASigR.bytes, sig.DSASigR.bitLength, err = readMPI(r); err != nil { + return + } + sig.DSASigS.bytes, sig.DSASigS.bitLength, err = readMPI(r) + default: + panic("unreachable") + } + return +} + +// Serialize marshals sig to w. Sign, SignUserId or SignKey must have been +// called first. +func (sig *SignatureV3) Serialize(w io.Writer) (err error) { + buf := make([]byte, 8) + + // Write the sig type and creation time + buf[0] = byte(sig.SigType) + binary.BigEndian.PutUint32(buf[1:5], uint32(sig.CreationTime.Unix())) + if _, err = w.Write(buf[:5]); err != nil { + return + } + + // Write the issuer long key ID + binary.BigEndian.PutUint64(buf[:8], sig.IssuerKeyId) + if _, err = w.Write(buf[:8]); err != nil { + return + } + + // Write public key algorithm, hash ID, and hash value + buf[0] = byte(sig.PubKeyAlgo) + hashId, ok := s2k.HashToHashId(sig.Hash) + if !ok { + return errors.UnsupportedError(fmt.Sprintf("hash function %v", sig.Hash)) + } + buf[1] = hashId + copy(buf[2:4], sig.HashTag[:]) + if _, err = w.Write(buf[:4]); err != nil { + return + } + + if sig.RSASignature.bytes == nil && sig.DSASigR.bytes == nil { + return errors.InvalidArgumentError("Signature: need to call Sign, SignUserId or SignKey before Serialize") + } + + switch sig.PubKeyAlgo { + case PubKeyAlgoRSA, PubKeyAlgoRSASignOnly: + err = writeMPIs(w, sig.RSASignature) + case PubKeyAlgoDSA: + err = writeMPIs(w, sig.DSASigR, sig.DSASigS) + default: + panic("impossible") + } + return +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/symmetric_key_encrypted.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/symmetric_key_encrypted.go new file mode 100644 index 00000000..d2bef0ce --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/symmetric_key_encrypted.go @@ -0,0 +1,158 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "bytes" + "crypto/cipher" + "io" + "strconv" + + "github.com/keybase/go-crypto/openpgp/errors" + "github.com/keybase/go-crypto/openpgp/s2k" +) + +// This is the largest session key that we'll support. Since no 512-bit cipher +// has even been seriously used, this is comfortably large. +const maxSessionKeySizeInBytes = 64 + +// SymmetricKeyEncrypted represents a passphrase protected session key. See RFC +// 4880, section 5.3. +type SymmetricKeyEncrypted struct { + CipherFunc CipherFunction + s2k func(out, in []byte) + encryptedKey []byte +} + +const symmetricKeyEncryptedVersion = 4 + +func (ske *SymmetricKeyEncrypted) parse(r io.Reader) error { + // RFC 4880, section 5.3. + var buf [2]byte + if _, err := readFull(r, buf[:]); err != nil { + return err + } + if buf[0] != symmetricKeyEncryptedVersion { + return errors.UnsupportedError("SymmetricKeyEncrypted version") + } + ske.CipherFunc = CipherFunction(buf[1]) + + if ske.CipherFunc.KeySize() == 0 { + return errors.UnsupportedError("unknown cipher: " + strconv.Itoa(int(buf[1]))) + } + + var err error + ske.s2k, err = s2k.Parse(r) + if err != nil { + return err + } + if ske.s2k == nil { + return errors.UnsupportedError("can't use dummy S2K for symmetric key encryption") + } + + encryptedKey := make([]byte, maxSessionKeySizeInBytes) + // The session key may follow. We just have to try and read to find + // out. If it exists then we limit it to maxSessionKeySizeInBytes. + n, err := readFull(r, encryptedKey) + if err != nil && err != io.ErrUnexpectedEOF { + return err + } + + if n != 0 { + if n == maxSessionKeySizeInBytes { + return errors.UnsupportedError("oversized encrypted session key") + } + ske.encryptedKey = encryptedKey[:n] + } + + return nil +} + +// Decrypt attempts to decrypt an encrypted session key and returns the key and +// the cipher to use when decrypting a subsequent Symmetrically Encrypted Data +// packet. +func (ske *SymmetricKeyEncrypted) Decrypt(passphrase []byte) ([]byte, CipherFunction, error) { + key := make([]byte, ske.CipherFunc.KeySize()) + ske.s2k(key, passphrase) + + if len(ske.encryptedKey) == 0 { + return key, ske.CipherFunc, nil + } + + // the IV is all zeros + iv := make([]byte, ske.CipherFunc.blockSize()) + c := cipher.NewCFBDecrypter(ske.CipherFunc.new(key), iv) + plaintextKey := make([]byte, len(ske.encryptedKey)) + c.XORKeyStream(plaintextKey, ske.encryptedKey) + cipherFunc := CipherFunction(plaintextKey[0]) + if cipherFunc.blockSize() == 0 { + return nil, ske.CipherFunc, errors.UnsupportedError("unknown cipher: " + strconv.Itoa(int(cipherFunc))) + } + plaintextKey = plaintextKey[1:] + if l := len(plaintextKey); l == 0 || l%cipherFunc.blockSize() != 0 { + return nil, cipherFunc, errors.StructuralError("length of decrypted key not a multiple of block size") + } + + return plaintextKey, cipherFunc, nil +} + +// SerializeSymmetricKeyEncrypted serializes a symmetric key packet to w. The +// packet contains a random session key, encrypted by a key derived from the +// given passphrase. The session key is returned and must be passed to +// SerializeSymmetricallyEncrypted. +// If config is nil, sensible defaults will be used. +func SerializeSymmetricKeyEncrypted(w io.Writer, passphrase []byte, config *Config) (key []byte, err error) { + cipherFunc := config.Cipher() + keySize := cipherFunc.KeySize() + if keySize == 0 { + return nil, errors.UnsupportedError("unknown cipher: " + strconv.Itoa(int(cipherFunc))) + } + + s2kBuf := new(bytes.Buffer) + keyEncryptingKey := make([]byte, keySize) + // s2k.Serialize salts and stretches the passphrase, and writes the + // resulting key to keyEncryptingKey and the s2k descriptor to s2kBuf. + err = s2k.Serialize(s2kBuf, keyEncryptingKey, config.Random(), passphrase, &s2k.Config{Hash: config.Hash(), S2KCount: config.PasswordHashIterations()}) + if err != nil { + return + } + s2kBytes := s2kBuf.Bytes() + + packetLength := 2 /* header */ + len(s2kBytes) + 1 /* cipher type */ + keySize + err = serializeHeader(w, packetTypeSymmetricKeyEncrypted, packetLength) + if err != nil { + return + } + + var buf [2]byte + buf[0] = symmetricKeyEncryptedVersion + buf[1] = byte(cipherFunc) + _, err = w.Write(buf[:]) + if err != nil { + return + } + _, err = w.Write(s2kBytes) + if err != nil { + return + } + + sessionKey := make([]byte, keySize) + _, err = io.ReadFull(config.Random(), sessionKey) + if err != nil { + return + } + iv := make([]byte, cipherFunc.blockSize()) + c := cipher.NewCFBEncrypter(cipherFunc.new(keyEncryptingKey), iv) + encryptedCipherAndKey := make([]byte, keySize+1) + c.XORKeyStream(encryptedCipherAndKey, buf[1:]) + c.XORKeyStream(encryptedCipherAndKey[1:], sessionKey) + _, err = w.Write(encryptedCipherAndKey) + if err != nil { + return + } + + key = sessionKey + return +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/symmetrically_encrypted.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/symmetrically_encrypted.go new file mode 100644 index 00000000..fd4f8f01 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/symmetrically_encrypted.go @@ -0,0 +1,291 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "crypto/cipher" + "crypto/sha1" + "crypto/subtle" + "hash" + "io" + "strconv" + + "github.com/keybase/go-crypto/openpgp/errors" +) + +// SymmetricallyEncrypted represents a symmetrically encrypted byte string. The +// encrypted contents will consist of more OpenPGP packets. See RFC 4880, +// sections 5.7 and 5.13. +type SymmetricallyEncrypted struct { + MDC bool // true iff this is a type 18 packet and thus has an embedded MAC. + contents io.Reader + prefix []byte +} + +const symmetricallyEncryptedVersion = 1 + +func (se *SymmetricallyEncrypted) parse(r io.Reader) error { + if se.MDC { + // See RFC 4880, section 5.13. + var buf [1]byte + _, err := readFull(r, buf[:]) + if err != nil { + return err + } + if buf[0] != symmetricallyEncryptedVersion { + return errors.UnsupportedError("unknown SymmetricallyEncrypted version") + } + } + se.contents = r + return nil +} + +// Decrypt returns a ReadCloser, from which the decrypted contents of the +// packet can be read. An incorrect key can, with high probability, be detected +// immediately and this will result in a KeyIncorrect error being returned. +func (se *SymmetricallyEncrypted) Decrypt(c CipherFunction, key []byte) (io.ReadCloser, error) { + keySize := c.KeySize() + if keySize == 0 { + return nil, errors.UnsupportedError("unknown cipher: " + strconv.Itoa(int(c))) + } + if len(key) != keySize { + return nil, errors.InvalidArgumentError("SymmetricallyEncrypted: incorrect key length") + } + + if se.prefix == nil { + se.prefix = make([]byte, c.blockSize()+2) + _, err := readFull(se.contents, se.prefix) + if err != nil { + return nil, err + } + } else if len(se.prefix) != c.blockSize()+2 { + return nil, errors.InvalidArgumentError("can't try ciphers with different block lengths") + } + + ocfbResync := OCFBResync + if se.MDC { + // MDC packets use a different form of OCFB mode. + ocfbResync = OCFBNoResync + } + + s := NewOCFBDecrypter(c.new(key), se.prefix, ocfbResync) + if s == nil { + return nil, errors.ErrKeyIncorrect + } + + plaintext := cipher.StreamReader{S: s, R: se.contents} + + if se.MDC { + // MDC packets have an embedded hash that we need to check. + h := sha1.New() + h.Write(se.prefix) + return &seMDCReader{in: plaintext, h: h}, nil + } + + // Otherwise, we just need to wrap plaintext so that it's a valid ReadCloser. + return seReader{plaintext}, nil +} + +// seReader wraps an io.Reader with a no-op Close method. +type seReader struct { + in io.Reader +} + +func (ser seReader) Read(buf []byte) (int, error) { + return ser.in.Read(buf) +} + +func (ser seReader) Close() error { + return nil +} + +const mdcTrailerSize = 1 /* tag byte */ + 1 /* length byte */ + sha1.Size + +// An seMDCReader wraps an io.Reader, maintains a running hash and keeps hold +// of the most recent 22 bytes (mdcTrailerSize). Upon EOF, those bytes form an +// MDC packet containing a hash of the previous contents which is checked +// against the running hash. See RFC 4880, section 5.13. +type seMDCReader struct { + in io.Reader + h hash.Hash + trailer [mdcTrailerSize]byte + scratch [mdcTrailerSize]byte + trailerUsed int + error bool + eof bool +} + +func (ser *seMDCReader) Read(buf []byte) (n int, err error) { + if ser.error { + err = io.ErrUnexpectedEOF + return + } + if ser.eof { + err = io.EOF + return + } + + // If we haven't yet filled the trailer buffer then we must do that + // first. + for ser.trailerUsed < mdcTrailerSize { + n, err = ser.in.Read(ser.trailer[ser.trailerUsed:]) + ser.trailerUsed += n + if err == io.EOF { + if ser.trailerUsed != mdcTrailerSize { + n = 0 + err = io.ErrUnexpectedEOF + ser.error = true + return + } + ser.eof = true + n = 0 + return + } + + if err != nil { + n = 0 + return + } + } + + // If it's a short read then we read into a temporary buffer and shift + // the data into the caller's buffer. + if len(buf) <= mdcTrailerSize { + n, err = readFull(ser.in, ser.scratch[:len(buf)]) + copy(buf, ser.trailer[:n]) + ser.h.Write(buf[:n]) + copy(ser.trailer[:], ser.trailer[n:]) + copy(ser.trailer[mdcTrailerSize-n:], ser.scratch[:]) + if n < len(buf) { + ser.eof = true + err = io.EOF + } + return + } + + n, err = ser.in.Read(buf[mdcTrailerSize:]) + copy(buf, ser.trailer[:]) + ser.h.Write(buf[:n]) + copy(ser.trailer[:], buf[n:]) + + if err == io.EOF { + ser.eof = true + } + return +} + +// This is a new-format packet tag byte for a type 19 (MDC) packet. +const mdcPacketTagByte = byte(0x80) | 0x40 | 19 + +func (ser *seMDCReader) Close() error { + if ser.error { + return errors.SignatureError("error during reading") + } + + for !ser.eof { + // We haven't seen EOF so we need to read to the end + var buf [1024]byte + _, err := ser.Read(buf[:]) + if err == io.EOF { + break + } + if err != nil { + return errors.SignatureError("error during reading") + } + } + + if ser.trailer[0] != mdcPacketTagByte || ser.trailer[1] != sha1.Size { + return errors.SignatureError("MDC packet not found") + } + ser.h.Write(ser.trailer[:2]) + + final := ser.h.Sum(nil) + if subtle.ConstantTimeCompare(final, ser.trailer[2:]) != 1 { + return errors.SignatureError("hash mismatch") + } + return nil +} + +// An seMDCWriter writes through to an io.WriteCloser while maintains a running +// hash of the data written. On close, it emits an MDC packet containing the +// running hash. +type seMDCWriter struct { + w io.WriteCloser + h hash.Hash +} + +func (w *seMDCWriter) Write(buf []byte) (n int, err error) { + w.h.Write(buf) + return w.w.Write(buf) +} + +func (w *seMDCWriter) Close() (err error) { + var buf [mdcTrailerSize]byte + + buf[0] = mdcPacketTagByte + buf[1] = sha1.Size + w.h.Write(buf[:2]) + digest := w.h.Sum(nil) + copy(buf[2:], digest) + + _, err = w.w.Write(buf[:]) + if err != nil { + return + } + return w.w.Close() +} + +// noOpCloser is like an ioutil.NopCloser, but for an io.Writer. +type noOpCloser struct { + w io.Writer +} + +func (c noOpCloser) Write(data []byte) (n int, err error) { + return c.w.Write(data) +} + +func (c noOpCloser) Close() error { + return nil +} + +// SerializeSymmetricallyEncrypted serializes a symmetrically encrypted packet +// to w and returns a WriteCloser to which the to-be-encrypted packets can be +// written. +// If config is nil, sensible defaults will be used. +func SerializeSymmetricallyEncrypted(w io.Writer, c CipherFunction, key []byte, config *Config) (contents io.WriteCloser, err error) { + if c.KeySize() != len(key) { + return nil, errors.InvalidArgumentError("SymmetricallyEncrypted.Serialize: bad key length") + } + writeCloser := noOpCloser{w} + ciphertext, err := serializeStreamHeader(writeCloser, packetTypeSymmetricallyEncryptedMDC) + if err != nil { + return + } + + _, err = ciphertext.Write([]byte{symmetricallyEncryptedVersion}) + if err != nil { + return + } + + block := c.new(key) + blockSize := block.BlockSize() + iv := make([]byte, blockSize) + _, err = config.Random().Read(iv) + if err != nil { + return + } + s, prefix := NewOCFBEncrypter(block, iv, OCFBNoResync) + _, err = ciphertext.Write(prefix) + if err != nil { + return + } + plaintext := cipher.StreamWriter{S: s, W: ciphertext} + + h := sha1.New() + h.Write(iv) + h.Write(iv[blockSize-2:]) + contents = &seMDCWriter{w: plaintext, h: h} + return +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/userattribute.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/userattribute.go new file mode 100644 index 00000000..96a2b382 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/userattribute.go @@ -0,0 +1,91 @@ +// Copyright 2013 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "bytes" + "image" + "image/jpeg" + "io" + "io/ioutil" +) + +const UserAttrImageSubpacket = 1 + +// UserAttribute is capable of storing other types of data about a user +// beyond name, email and a text comment. In practice, user attributes are typically used +// to store a signed thumbnail photo JPEG image of the user. +// See RFC 4880, section 5.12. +type UserAttribute struct { + Contents []*OpaqueSubpacket +} + +// NewUserAttributePhoto creates a user attribute packet +// containing the given images. +func NewUserAttributePhoto(photos ...image.Image) (uat *UserAttribute, err error) { + uat = new(UserAttribute) + for _, photo := range photos { + var buf bytes.Buffer + // RFC 4880, Section 5.12.1. + data := []byte{ + 0x10, 0x00, // Little-endian image header length (16 bytes) + 0x01, // Image header version 1 + 0x01, // JPEG + 0, 0, 0, 0, // 12 reserved octets, must be all zero. + 0, 0, 0, 0, + 0, 0, 0, 0} + if _, err = buf.Write(data); err != nil { + return + } + if err = jpeg.Encode(&buf, photo, nil); err != nil { + return + } + uat.Contents = append(uat.Contents, &OpaqueSubpacket{ + SubType: UserAttrImageSubpacket, + Contents: buf.Bytes()}) + } + return +} + +// NewUserAttribute creates a new user attribute packet containing the given subpackets. +func NewUserAttribute(contents ...*OpaqueSubpacket) *UserAttribute { + return &UserAttribute{Contents: contents} +} + +func (uat *UserAttribute) parse(r io.Reader) (err error) { + // RFC 4880, section 5.13 + b, err := ioutil.ReadAll(r) + if err != nil { + return + } + uat.Contents, err = OpaqueSubpackets(b) + return +} + +// Serialize marshals the user attribute to w in the form of an OpenPGP packet, including +// header. +func (uat *UserAttribute) Serialize(w io.Writer) (err error) { + var buf bytes.Buffer + for _, sp := range uat.Contents { + sp.Serialize(&buf) + } + if err = serializeHeader(w, packetTypeUserAttribute, buf.Len()); err != nil { + return err + } + _, err = w.Write(buf.Bytes()) + return +} + +// ImageData returns zero or more byte slices, each containing +// JPEG File Interchange Format (JFIF), for each photo in the +// the user attribute packet. +func (uat *UserAttribute) ImageData() (imageData [][]byte) { + for _, sp := range uat.Contents { + if sp.SubType == UserAttrImageSubpacket && len(sp.Contents) > 16 { + imageData = append(imageData, sp.Contents[16:]) + } + } + return +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/packet/userid.go b/vendor/github.com/keybase/go-crypto/openpgp/packet/userid.go new file mode 100644 index 00000000..d6bea7d4 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/packet/userid.go @@ -0,0 +1,160 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package packet + +import ( + "io" + "io/ioutil" + "strings" +) + +// UserId contains text that is intended to represent the name and email +// address of the key holder. See RFC 4880, section 5.11. By convention, this +// takes the form "Full Name (Comment) " +type UserId struct { + Id string // By convention, this takes the form "Full Name (Comment) " which is split out in the fields below. + + Name, Comment, Email string +} + +func hasInvalidCharacters(s string) bool { + for _, c := range s { + switch c { + case '(', ')', '<', '>', 0: + return true + } + } + return false +} + +// NewUserId returns a UserId or nil if any of the arguments contain invalid +// characters. The invalid characters are '\x00', '(', ')', '<' and '>' +func NewUserId(name, comment, email string) *UserId { + // RFC 4880 doesn't deal with the structure of userid strings; the + // name, comment and email form is just a convention. However, there's + // no convention about escaping the metacharacters and GPG just refuses + // to create user ids where, say, the name contains a '('. We mirror + // this behaviour. + + if hasInvalidCharacters(name) || hasInvalidCharacters(comment) || hasInvalidCharacters(email) { + return nil + } + + uid := new(UserId) + uid.Name, uid.Comment, uid.Email = name, comment, email + uid.Id = name + if len(comment) > 0 { + if len(uid.Id) > 0 { + uid.Id += " " + } + uid.Id += "(" + uid.Id += comment + uid.Id += ")" + } + if len(email) > 0 { + if len(uid.Id) > 0 { + uid.Id += " " + } + uid.Id += "<" + uid.Id += email + uid.Id += ">" + } + return uid +} + +func (uid *UserId) parse(r io.Reader) (err error) { + // RFC 4880, section 5.11 + b, err := ioutil.ReadAll(r) + if err != nil { + return + } + uid.Id = string(b) + uid.Name, uid.Comment, uid.Email = parseUserId(uid.Id) + return +} + +// Serialize marshals uid to w in the form of an OpenPGP packet, including +// header. +func (uid *UserId) Serialize(w io.Writer) error { + err := serializeHeader(w, packetTypeUserId, len(uid.Id)) + if err != nil { + return err + } + _, err = w.Write([]byte(uid.Id)) + return err +} + +// parseUserId extracts the name, comment and email from a user id string that +// is formatted as "Full Name (Comment) ". +func parseUserId(id string) (name, comment, email string) { + var n, c, e struct { + start, end int + } + var state int + + for offset, rune := range id { + switch state { + case 0: + // Entering name + n.start = offset + state = 1 + fallthrough + case 1: + // In name + if rune == '(' { + state = 2 + n.end = offset + } else if rune == '<' { + state = 5 + n.end = offset + } + case 2: + // Entering comment + c.start = offset + state = 3 + fallthrough + case 3: + // In comment + if rune == ')' { + state = 4 + c.end = offset + } + case 4: + // Between comment and email + if rune == '<' { + state = 5 + } + case 5: + // Entering email + e.start = offset + state = 6 + fallthrough + case 6: + // In email + if rune == '>' { + state = 7 + e.end = offset + } + default: + // After email + } + } + switch state { + case 1: + // ended in the name + n.end = len(id) + case 3: + // ended in comment + c.end = len(id) + case 6: + // ended in email + e.end = len(id) + } + + name = strings.TrimSpace(id[n.start:n.end]) + comment = strings.TrimSpace(id[c.start:c.end]) + email = strings.TrimSpace(id[e.start:e.end]) + return +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/patch.sh b/vendor/github.com/keybase/go-crypto/openpgp/patch.sh new file mode 100644 index 00000000..23cacc83 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/patch.sh @@ -0,0 +1,7 @@ +#!/bin/sh + +patch < sig-v3.patch +patch < s2k-gnu-dummy.patch +find . -type f -name '*.go' -exec sed -i'' -e 's/golang.org\/x\/crypto\/openpgp/github.com\/keybase\/go-crypto\/openpgp/' {} \; +find . -type f -name '*.go-e' -exec rm {} \; +go test ./... diff --git a/vendor/github.com/keybase/go-crypto/openpgp/read.go b/vendor/github.com/keybase/go-crypto/openpgp/read.go new file mode 100644 index 00000000..cde27cba --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/read.go @@ -0,0 +1,463 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package openpgp implements high level operations on OpenPGP messages. +package openpgp // import "github.com/keybase/go-crypto/openpgp" + +import ( + "crypto" + "crypto/hmac" + _ "crypto/sha256" + "hash" + "io" + "strconv" + + "github.com/keybase/go-crypto/openpgp/armor" + "github.com/keybase/go-crypto/openpgp/errors" + "github.com/keybase/go-crypto/openpgp/packet" +) + +// SignatureType is the armor type for a PGP signature. +var SignatureType = "PGP SIGNATURE" + +// readArmored reads an armored block with the given type. +func readArmored(r io.Reader, expectedType string) (body io.Reader, err error) { + block, err := armor.Decode(r) + if err != nil { + return + } + + if block.Type != expectedType { + return nil, errors.InvalidArgumentError("expected '" + expectedType + "', got: " + block.Type) + } + + return block.Body, nil +} + +// MessageDetails contains the result of parsing an OpenPGP encrypted and/or +// signed message. +type MessageDetails struct { + IsEncrypted bool // true if the message was encrypted. + EncryptedToKeyIds []uint64 // the list of recipient key ids. + IsSymmetricallyEncrypted bool // true if a passphrase could have decrypted the message. + DecryptedWith Key // the private key used to decrypt the message, if any. + IsSigned bool // true if the message is signed. + SignedByKeyId uint64 // the key id of the signer, if any. + SignedBy *Key // the key of the signer, if available. + LiteralData *packet.LiteralData // the metadata of the contents + UnverifiedBody io.Reader // the contents of the message. + + // If IsSigned is true and SignedBy is non-zero then the signature will + // be verified as UnverifiedBody is read. The signature cannot be + // checked until the whole of UnverifiedBody is read so UnverifiedBody + // must be consumed until EOF before the data can trusted. Even if a + // message isn't signed (or the signer is unknown) the data may contain + // an authentication code that is only checked once UnverifiedBody has + // been consumed. Once EOF has been seen, the following fields are + // valid. (An authentication code failure is reported as a + // SignatureError error when reading from UnverifiedBody.) + SignatureError error // nil if the signature is good. + Signature *packet.Signature // the signature packet itself, if v4 (default) + SignatureV3 *packet.SignatureV3 // the signature packet if it is a v2 or v3 signature + + decrypted io.ReadCloser +} + +// A PromptFunction is used as a callback by functions that may need to decrypt +// a private key, or prompt for a passphrase. It is called with a list of +// acceptable, encrypted private keys and a boolean that indicates whether a +// passphrase is usable. It should either decrypt a private key or return a +// passphrase to try. If the decrypted private key or given passphrase isn't +// correct, the function will be called again, forever. Any error returned will +// be passed up. +type PromptFunction func(keys []Key, symmetric bool) ([]byte, error) + +// A keyEnvelopePair is used to store a private key with the envelope that +// contains a symmetric key, encrypted with that key. +type keyEnvelopePair struct { + key Key + encryptedKey *packet.EncryptedKey +} + +// ReadMessage parses an OpenPGP message that may be signed and/or encrypted. +// The given KeyRing should contain both public keys (for signature +// verification) and, possibly encrypted, private keys for decrypting. +// If config is nil, sensible defaults will be used. +func ReadMessage(r io.Reader, keyring KeyRing, prompt PromptFunction, config *packet.Config) (md *MessageDetails, err error) { + var p packet.Packet + + var symKeys []*packet.SymmetricKeyEncrypted + var pubKeys []keyEnvelopePair + var se *packet.SymmetricallyEncrypted + + packets := packet.NewReader(r) + md = new(MessageDetails) + md.IsEncrypted = true + + // The message, if encrypted, starts with a number of packets + // containing an encrypted decryption key. The decryption key is either + // encrypted to a public key, or with a passphrase. This loop + // collects these packets. +ParsePackets: + for { + p, err = packets.Next() + if err != nil { + return nil, err + } + switch p := p.(type) { + case *packet.SymmetricKeyEncrypted: + // This packet contains the decryption key encrypted with a passphrase. + md.IsSymmetricallyEncrypted = true + symKeys = append(symKeys, p) + case *packet.EncryptedKey: + // This packet contains the decryption key encrypted to a public key. + md.EncryptedToKeyIds = append(md.EncryptedToKeyIds, p.KeyId) + switch p.Algo { + case packet.PubKeyAlgoRSA, packet.PubKeyAlgoRSAEncryptOnly, packet.PubKeyAlgoElGamal, packet.PubKeyAlgoECDH: + break + default: + continue + } + var keys []Key + if p.KeyId == 0 { + keys = keyring.DecryptionKeys() + } else { + keys = keyring.KeysById(p.KeyId, nil) + } + for _, k := range keys { + pubKeys = append(pubKeys, keyEnvelopePair{k, p}) + } + case *packet.SymmetricallyEncrypted: + se = p + break ParsePackets + case *packet.Compressed, *packet.LiteralData, *packet.OnePassSignature: + // This message isn't encrypted. + if len(symKeys) != 0 || len(pubKeys) != 0 { + return nil, errors.StructuralError("key material not followed by encrypted message") + } + packets.Unread(p) + return readSignedMessage(packets, nil, keyring) + } + } + + var candidates []Key + var decrypted io.ReadCloser + + // Now that we have the list of encrypted keys we need to decrypt at + // least one of them or, if we cannot, we need to call the prompt + // function so that it can decrypt a key or give us a passphrase. +FindKey: + for { + // See if any of the keys already have a private key available + candidates = candidates[:0] + candidateFingerprints := make(map[string]bool) + + for _, pk := range pubKeys { + if pk.key.PrivateKey == nil { + continue + } + if !pk.key.PrivateKey.Encrypted { + if len(pk.encryptedKey.Key) == 0 { + pk.encryptedKey.Decrypt(pk.key.PrivateKey, config) + } + if len(pk.encryptedKey.Key) == 0 { + continue + } + decrypted, err = se.Decrypt(pk.encryptedKey.CipherFunc, pk.encryptedKey.Key) + if err != nil && err != errors.ErrKeyIncorrect { + return nil, err + } + if decrypted != nil { + md.DecryptedWith = pk.key + break FindKey + } + } else { + fpr := string(pk.key.PublicKey.Fingerprint[:]) + if v := candidateFingerprints[fpr]; v { + continue + } + candidates = append(candidates, pk.key) + candidateFingerprints[fpr] = true + } + } + + if len(candidates) == 0 && len(symKeys) == 0 { + return nil, errors.ErrKeyIncorrect + } + + if prompt == nil { + return nil, errors.ErrKeyIncorrect + } + + passphrase, err := prompt(candidates, len(symKeys) != 0) + if err != nil { + return nil, err + } + + // Try the symmetric passphrase first + if len(symKeys) != 0 && passphrase != nil { + for _, s := range symKeys { + key, cipherFunc, err := s.Decrypt(passphrase) + if err == nil { + decrypted, err = se.Decrypt(cipherFunc, key) + if err != nil && err != errors.ErrKeyIncorrect { + return nil, err + } + if decrypted != nil { + break FindKey + } + } + + } + } + } + + md.decrypted = decrypted + if err := packets.Push(decrypted); err != nil { + return nil, err + } + return readSignedMessage(packets, md, keyring) +} + +// readSignedMessage reads a possibly signed message if mdin is non-zero then +// that structure is updated and returned. Otherwise a fresh MessageDetails is +// used. +func readSignedMessage(packets *packet.Reader, mdin *MessageDetails, keyring KeyRing) (md *MessageDetails, err error) { + if mdin == nil { + mdin = new(MessageDetails) + } + md = mdin + + var p packet.Packet + var h hash.Hash + var wrappedHash hash.Hash +FindLiteralData: + for { + p, err = packets.Next() + if err != nil { + return nil, err + } + switch p := p.(type) { + case *packet.Compressed: + if err := packets.Push(p.Body); err != nil { + return nil, err + } + case *packet.OnePassSignature: + if !p.IsLast { + return nil, errors.UnsupportedError("nested signatures") + } + + h, wrappedHash, err = hashForSignature(p.Hash, p.SigType) + if err != nil { + md = nil + return + } + + md.IsSigned = true + md.SignedByKeyId = p.KeyId + keys := keyring.KeysByIdUsage(p.KeyId, nil, packet.KeyFlagSign) + if len(keys) > 0 { + md.SignedBy = &keys[0] + } + case *packet.LiteralData: + md.LiteralData = p + break FindLiteralData + } + } + + if md.SignedBy != nil { + md.UnverifiedBody = &signatureCheckReader{packets, h, wrappedHash, md} + } else if md.decrypted != nil { + md.UnverifiedBody = checkReader{md} + } else { + md.UnverifiedBody = md.LiteralData.Body + } + + return md, nil +} + +// hashForSignature returns a pair of hashes that can be used to verify a +// signature. The signature may specify that the contents of the signed message +// should be preprocessed (i.e. to normalize line endings). Thus this function +// returns two hashes. The second should be used to hash the message itself and +// performs any needed preprocessing. +func hashForSignature(hashId crypto.Hash, sigType packet.SignatureType) (hash.Hash, hash.Hash, error) { + if !hashId.Available() { + return nil, nil, errors.UnsupportedError("hash not available: " + strconv.Itoa(int(hashId))) + } + h := hashId.New() + + switch sigType { + case packet.SigTypeBinary: + return h, h, nil + case packet.SigTypeText: + return h, NewCanonicalTextHash(h), nil + } + + return nil, nil, errors.UnsupportedError("unsupported signature type: " + strconv.Itoa(int(sigType))) +} + +// checkReader wraps an io.Reader from a LiteralData packet. When it sees EOF +// it closes the ReadCloser from any SymmetricallyEncrypted packet to trigger +// MDC checks. +type checkReader struct { + md *MessageDetails +} + +func (cr checkReader) Read(buf []byte) (n int, err error) { + n, err = cr.md.LiteralData.Body.Read(buf) + if err == io.EOF { + mdcErr := cr.md.decrypted.Close() + if mdcErr != nil { + err = mdcErr + } + } + return +} + +// signatureCheckReader wraps an io.Reader from a LiteralData packet and hashes +// the data as it is read. When it sees an EOF from the underlying io.Reader +// it parses and checks a trailing Signature packet and triggers any MDC checks. +type signatureCheckReader struct { + packets *packet.Reader + h, wrappedHash hash.Hash + md *MessageDetails +} + +func (scr *signatureCheckReader) Read(buf []byte) (n int, err error) { + n, err = scr.md.LiteralData.Body.Read(buf) + scr.wrappedHash.Write(buf[:n]) + if err == io.EOF { + var p packet.Packet + p, scr.md.SignatureError = scr.packets.Next() + if scr.md.SignatureError != nil { + return + } + + var ok bool + if scr.md.Signature, ok = p.(*packet.Signature); ok { + var err error + if fingerprint := scr.md.Signature.IssuerFingerprint; fingerprint != nil { + if !hmac.Equal(fingerprint, scr.md.SignedBy.PublicKey.Fingerprint[:]) { + err = errors.StructuralError("bad key fingerprint") + } + } + if err == nil { + err = scr.md.SignedBy.PublicKey.VerifySignature(scr.h, scr.md.Signature) + } + scr.md.SignatureError = err + } else if scr.md.SignatureV3, ok = p.(*packet.SignatureV3); ok { + scr.md.SignatureError = scr.md.SignedBy.PublicKey.VerifySignatureV3(scr.h, scr.md.SignatureV3) + } else { + scr.md.SignatureError = errors.StructuralError("LiteralData not followed by Signature") + return + } + + // The SymmetricallyEncrypted packet, if any, might have an + // unsigned hash of its own. In order to check this we need to + // close that Reader. + if scr.md.decrypted != nil { + mdcErr := scr.md.decrypted.Close() + if mdcErr != nil { + err = mdcErr + } + } + } + return +} + +// CheckDetachedSignature takes a signed file and a detached signature and +// returns the signer if the signature is valid. If the signer isn't known, +// ErrUnknownIssuer is returned. +func CheckDetachedSignature(keyring KeyRing, signed, signature io.Reader) (signer *Entity, err error) { + signer, _, err = checkDetachedSignature(keyring, signed, signature) + return signer, err +} + +func checkDetachedSignature(keyring KeyRing, signed, signature io.Reader) (signer *Entity, issuer *uint64, err error) { + var issuerKeyId uint64 + var issuerFingerprint []byte + var hashFunc crypto.Hash + var sigType packet.SignatureType + var keys []Key + var p packet.Packet + + packets := packet.NewReader(signature) + for { + p, err = packets.Next() + if err == io.EOF { + return nil, nil, errors.ErrUnknownIssuer + } + if err != nil { + return nil, nil, err + } + + switch sig := p.(type) { + case *packet.Signature: + if sig.IssuerKeyId == nil { + return nil, nil, errors.StructuralError("signature doesn't have an issuer") + } + issuerKeyId = *sig.IssuerKeyId + hashFunc = sig.Hash + sigType = sig.SigType + issuerFingerprint = sig.IssuerFingerprint + case *packet.SignatureV3: + issuerKeyId = sig.IssuerKeyId + hashFunc = sig.Hash + sigType = sig.SigType + default: + return nil, nil, errors.StructuralError("non signature packet found") + } + + keys = keyring.KeysByIdUsage(issuerKeyId, issuerFingerprint, packet.KeyFlagSign) + if len(keys) > 0 { + break + } + } + + if len(keys) == 0 { + panic("unreachable") + } + + h, wrappedHash, err := hashForSignature(hashFunc, sigType) + if err != nil { + return nil, nil, err + } + + if _, err := io.Copy(wrappedHash, signed); err != nil && err != io.EOF { + return nil, nil, err + } + + for _, key := range keys { + switch sig := p.(type) { + case *packet.Signature: + err = key.PublicKey.VerifySignature(h, sig) + case *packet.SignatureV3: + err = key.PublicKey.VerifySignatureV3(h, sig) + default: + panic("unreachable") + } + + if err == nil { + return key.Entity, &issuerKeyId, nil + } + } + + return nil, nil, err +} + +// CheckArmoredDetachedSignature performs the same actions as +// CheckDetachedSignature but expects the signature to be armored. +func CheckArmoredDetachedSignature(keyring KeyRing, signed, signature io.Reader) (signer *Entity, err error) { + signer, _, err = checkArmoredDetachedSignature(keyring, signed, signature) + return signer, err +} + +func checkArmoredDetachedSignature(keyring KeyRing, signed, signature io.Reader) (signer *Entity, issuer *uint64, err error) { + body, err := readArmored(signature, SignatureType) + if err != nil { + return + } + return checkDetachedSignature(keyring, signed, body) +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/s2k/s2k.go b/vendor/github.com/keybase/go-crypto/openpgp/s2k/s2k.go new file mode 100644 index 00000000..01bb6785 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/s2k/s2k.go @@ -0,0 +1,326 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package s2k implements the various OpenPGP string-to-key transforms as +// specified in RFC 4800 section 3.7.1. +package s2k // import "github.com/keybase/go-crypto/openpgp/s2k" + +import ( + "crypto" + "hash" + "io" + "strconv" + + "github.com/keybase/go-crypto/openpgp/errors" +) + +// Config collects configuration parameters for s2k key-stretching +// transformatioms. A nil *Config is valid and results in all default +// values. Currently, Config is used only by the Serialize function in +// this package. +type Config struct { + // Hash is the default hash function to be used. If + // nil, SHA1 is used. + Hash crypto.Hash + // S2KCount is only used for symmetric encryption. It + // determines the strength of the passphrase stretching when + // the said passphrase is hashed to produce a key. S2KCount + // should be between 1024 and 65011712, inclusive. If Config + // is nil or S2KCount is 0, the value 65536 used. Not all + // values in the above range can be represented. S2KCount will + // be rounded up to the next representable value if it cannot + // be encoded exactly. When set, it is strongly encrouraged to + // use a value that is at least 65536. See RFC 4880 Section + // 3.7.1.3. + S2KCount int +} + +func (c *Config) hash() crypto.Hash { + if c == nil || uint(c.Hash) == 0 { + // SHA1 is the historical default in this package. + return crypto.SHA1 + } + + return c.Hash +} + +func (c *Config) encodedCount() uint8 { + if c == nil || c.S2KCount == 0 { + return 96 // The common case. Correspoding to 65536 + } + + i := c.S2KCount + switch { + // Behave like GPG. Should we make 65536 the lowest value used? + case i < 1024: + i = 1024 + case i > 65011712: + i = 65011712 + } + + return encodeCount(i) +} + +// encodeCount converts an iterative "count" in the range 1024 to +// 65011712, inclusive, to an encoded count. The return value is the +// octet that is actually stored in the GPG file. encodeCount panics +// if i is not in the above range (encodedCount above takes care to +// pass i in the correct range). See RFC 4880 Section 3.7.7.1. +func encodeCount(i int) uint8 { + if i < 1024 || i > 65011712 { + panic("count arg i outside the required range") + } + + for encoded := 0; encoded < 256; encoded++ { + count := decodeCount(uint8(encoded)) + if count >= i { + return uint8(encoded) + } + } + + return 255 +} + +// decodeCount returns the s2k mode 3 iterative "count" corresponding to +// the encoded octet c. +func decodeCount(c uint8) int { + return (16 + int(c&15)) << (uint32(c>>4) + 6) +} + +// Simple writes to out the result of computing the Simple S2K function (RFC +// 4880, section 3.7.1.1) using the given hash and input passphrase. +func Simple(out []byte, h hash.Hash, in []byte) { + Salted(out, h, in, nil) +} + +var zero [1]byte + +// Salted writes to out the result of computing the Salted S2K function (RFC +// 4880, section 3.7.1.2) using the given hash, input passphrase and salt. +func Salted(out []byte, h hash.Hash, in []byte, salt []byte) { + done := 0 + var digest []byte + + for i := 0; done < len(out); i++ { + h.Reset() + for j := 0; j < i; j++ { + h.Write(zero[:]) + } + h.Write(salt) + h.Write(in) + digest = h.Sum(digest[:0]) + n := copy(out[done:], digest) + done += n + } +} + +// Iterated writes to out the result of computing the Iterated and Salted S2K +// function (RFC 4880, section 3.7.1.3) using the given hash, input passphrase, +// salt and iteration count. +func Iterated(out []byte, h hash.Hash, in []byte, salt []byte, count int) { + combined := make([]byte, len(in)+len(salt)) + copy(combined, salt) + copy(combined[len(salt):], in) + + if count < len(combined) { + count = len(combined) + } + + done := 0 + var digest []byte + for i := 0; done < len(out); i++ { + h.Reset() + for j := 0; j < i; j++ { + h.Write(zero[:]) + } + written := 0 + for written < count { + if written+len(combined) > count { + todo := count - written + h.Write(combined[:todo]) + written = count + } else { + h.Write(combined) + written += len(combined) + } + } + digest = h.Sum(digest[:0]) + n := copy(out[done:], digest) + done += n + } +} + +func parseGNUExtensions(r io.Reader) (f func(out, in []byte), err error) { + var buf [9]byte + + // A three-byte string identifier + _, err = io.ReadFull(r, buf[:3]) + if err != nil { + return + } + gnuExt := string(buf[:3]) + + if gnuExt != "GNU" { + return nil, errors.UnsupportedError("Malformed GNU extension: " + gnuExt) + } + _, err = io.ReadFull(r, buf[:1]) + if err != nil { + return + } + gnuExtType := int(buf[0]) + switch gnuExtType { + case 1: + return nil, nil + case 2: + // Read a serial number, which is prefixed by a 1-byte length. + // The maximum length is 16. + var lenBuf [1]byte + _, err = io.ReadFull(r, lenBuf[:]) + if err != nil { + return + } + + maxLen := 16 + ivLen := int(lenBuf[0]) + if ivLen > maxLen { + ivLen = maxLen + } + ivBuf := make([]byte, ivLen) + // For now we simply discard the IV + _, err = io.ReadFull(r, ivBuf) + if err != nil { + return + } + return nil, nil + default: + return nil, errors.UnsupportedError("unknown S2K GNU protection mode: " + strconv.Itoa(int(gnuExtType))) + } +} + +// Parse reads a binary specification for a string-to-key transformation from r +// and returns a function which performs that transform. +func Parse(r io.Reader) (f func(out, in []byte), err error) { + var buf [9]byte + + _, err = io.ReadFull(r, buf[:2]) + if err != nil { + return + } + + // GNU Extensions; handle them before we try to look for a hash, which won't + // be needed in most cases anyway. + if buf[0] == 101 { + return parseGNUExtensions(r) + } + + hash, ok := HashIdToHash(buf[1]) + if !ok { + return nil, errors.UnsupportedError("hash for S2K function: " + strconv.Itoa(int(buf[1]))) + } + if !hash.Available() { + return nil, errors.UnsupportedError("hash not available: " + strconv.Itoa(int(hash))) + } + h := hash.New() + + switch buf[0] { + case 0: + f := func(out, in []byte) { + Simple(out, h, in) + } + return f, nil + case 1: + _, err = io.ReadFull(r, buf[:8]) + if err != nil { + return + } + f := func(out, in []byte) { + Salted(out, h, in, buf[:8]) + } + return f, nil + case 3: + _, err = io.ReadFull(r, buf[:9]) + if err != nil { + return + } + count := decodeCount(buf[8]) + f := func(out, in []byte) { + Iterated(out, h, in, buf[:8], count) + } + return f, nil + } + + return nil, errors.UnsupportedError("S2K function") +} + +// Serialize salts and stretches the given passphrase and writes the +// resulting key into key. It also serializes an S2K descriptor to +// w. The key stretching can be configured with c, which may be +// nil. In that case, sensible defaults will be used. +func Serialize(w io.Writer, key []byte, rand io.Reader, passphrase []byte, c *Config) error { + var buf [11]byte + buf[0] = 3 /* iterated and salted */ + buf[1], _ = HashToHashId(c.hash()) + salt := buf[2:10] + if _, err := io.ReadFull(rand, salt); err != nil { + return err + } + encodedCount := c.encodedCount() + count := decodeCount(encodedCount) + buf[10] = encodedCount + if _, err := w.Write(buf[:]); err != nil { + return err + } + + Iterated(key, c.hash().New(), passphrase, salt, count) + return nil +} + +// hashToHashIdMapping contains pairs relating OpenPGP's hash identifier with +// Go's crypto.Hash type. See RFC 4880, section 9.4. +var hashToHashIdMapping = []struct { + id byte + hash crypto.Hash + name string +}{ + {1, crypto.MD5, "MD5"}, + {2, crypto.SHA1, "SHA1"}, + {3, crypto.RIPEMD160, "RIPEMD160"}, + {8, crypto.SHA256, "SHA256"}, + {9, crypto.SHA384, "SHA384"}, + {10, crypto.SHA512, "SHA512"}, + {11, crypto.SHA224, "SHA224"}, +} + +// HashIdToHash returns a crypto.Hash which corresponds to the given OpenPGP +// hash id. +func HashIdToHash(id byte) (h crypto.Hash, ok bool) { + for _, m := range hashToHashIdMapping { + if m.id == id { + return m.hash, true + } + } + return 0, false +} + +// HashIdToString returns the name of the hash function corresponding to the +// given OpenPGP hash id, or panics if id is unknown. +func HashIdToString(id byte) (name string, ok bool) { + for _, m := range hashToHashIdMapping { + if m.id == id { + return m.name, true + } + } + + return "", false +} + +// HashIdToHash returns an OpenPGP hash id which corresponds the given Hash. +func HashToHashId(h crypto.Hash) (id byte, ok bool) { + for _, m := range hashToHashIdMapping { + if m.hash == h { + return m.id, true + } + } + return 0, false +} diff --git a/vendor/github.com/keybase/go-crypto/openpgp/sig-v3.patch b/vendor/github.com/keybase/go-crypto/openpgp/sig-v3.patch new file mode 100644 index 00000000..bfd764af --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/sig-v3.patch @@ -0,0 +1,135 @@ +diff --git a/openpgp/read.go b/openpgp/read.go +index a6cecc5..0c9397b 100644 +--- a/openpgp/read.go ++++ b/openpgp/read.go +@@ -56,8 +56,9 @@ type MessageDetails struct { + // been consumed. Once EOF has been seen, the following fields are + // valid. (An authentication code failure is reported as a + // SignatureError error when reading from UnverifiedBody.) +- SignatureError error // nil if the signature is good. +- Signature *packet.Signature // the signature packet itself. ++ SignatureError error // nil if the signature is good. ++ Signature *packet.Signature // the signature packet itself, if v4 (default) ++ SignatureV3 *packet.SignatureV3 // the signature packet if it is a v2 or v3 signature + + decrypted io.ReadCloser + } +@@ -334,13 +335,15 @@ func (scr *signatureCheckReader) Read(buf []byte) (n int, err error) { + } + + var ok bool +- if scr.md.Signature, ok = p.(*packet.Signature); !ok { ++ if scr.md.Signature, ok = p.(*packet.Signature); ok { ++ scr.md.SignatureError = scr.md.SignedBy.PublicKey.VerifySignature(scr.h, scr.md.Signature) ++ } else if scr.md.SignatureV3, ok = p.(*packet.SignatureV3); ok { ++ scr.md.SignatureError = scr.md.SignedBy.PublicKey.VerifySignatureV3(scr.h, scr.md.SignatureV3) ++ } else { + scr.md.SignatureError = errors.StructuralError("LiteralData not followed by Signature") + return + } + +- scr.md.SignatureError = scr.md.SignedBy.PublicKey.VerifySignature(scr.h, scr.md.Signature) +- + // The SymmetricallyEncrypted packet, if any, might have an + // unsigned hash of its own. In order to check this we need to + // close that Reader. +diff --git a/openpgp/read_test.go b/openpgp/read_test.go +index 52f942c..abe8d7b 100644 +--- a/openpgp/read_test.go ++++ b/openpgp/read_test.go +@@ -13,6 +13,7 @@ import ( + "strings" + "testing" + ++ "golang.org/x/crypto/openpgp/armor" + "golang.org/x/crypto/openpgp/errors" + ) + +@@ -411,6 +412,50 @@ func TestIssue11504(t *testing.T) { + testReadMessageError(t, "9303000130303030303030303030983002303030303030030000000130") + } + ++// TestSignatureV3Message tests the verification of V3 signature, generated ++// with a modern V4-style key. Some people have their clients set to generate ++// V3 signatures, so it's useful to be able to verify them. ++func TestSignatureV3Message(t *testing.T) { ++ sig, err := armor.Decode(strings.NewReader(signedMessageV3)) ++ if err != nil { ++ t.Error(err) ++ return ++ } ++ key, err := ReadArmoredKeyRing(strings.NewReader(keyV4forVerifyingSignedMessageV3)) ++ if err != nil { ++ t.Error(err) ++ return ++ } ++ md, err := ReadMessage(sig.Body, key, nil, nil) ++ if err != nil { ++ t.Error(err) ++ return ++ } ++ ++ _, err = ioutil.ReadAll(md.UnverifiedBody) ++ if err != nil { ++ t.Error(err) ++ return ++ } ++ ++ // We'll see a sig error here after reading in the UnverifiedBody above, ++ // if there was one to see. ++ if err = md.SignatureError; err != nil { ++ t.Error(err) ++ return ++ } ++ ++ if md.SignatureV3 == nil { ++ t.Errorf("No available signature after checking signature") ++ return ++ } ++ if md.Signature != nil { ++ t.Errorf("Did not expect a signature V4 back") ++ return ++ } ++ return ++} ++ + const testKey1KeyId = 0xA34D7E18C20C31BB + const testKey3KeyId = 0x338934250CCC0360 + +@@ -504,3 +549,36 @@ const unknownHashFunctionHex = `8a00000040040001990006050253863c24000a09103b4fe6 + const missingHashFunctionHex = `8a00000040040001030006050253863c24000a09103b4fe6acc0b21f32ffff0101010101010101010101010101010101010101010101010101010101010101010101010101` + + const campbellQuine = `a0b001000300fcffa0b001000d00f2ff000300fcffa0b001000d00f2ff8270a01c00000500faff8270a01c00000500faff000500faff001400ebff8270a01c00000500faff000500faff001400ebff428821c400001400ebff428821c400001400ebff428821c400001400ebff428821c400001400ebff428821c400000000ffff000000ffff000b00f4ff428821c400000000ffff000000ffff000b00f4ff0233214c40000100feff000233214c40000100feff0000` ++ ++const keyV4forVerifyingSignedMessageV3 = `-----BEGIN PGP PUBLIC KEY BLOCK----- ++Comment: GPGTools - https://gpgtools.org ++ ++mI0EVfxoFQEEAMBIqmbDfYygcvP6Phr1wr1XI41IF7Qixqybs/foBF8qqblD9gIY ++BKpXjnBOtbkcVOJ0nljd3/sQIfH4E0vQwK5/4YRQSI59eKOqd6Fx+fWQOLG+uu6z ++tewpeCj9LLHvibx/Sc7VWRnrznia6ftrXxJ/wHMezSab3tnGC0YPVdGNABEBAAG0 ++JEdvY3J5cHRvIFRlc3QgS2V5IDx0aGVtYXhAZ21haWwuY29tPoi5BBMBCgAjBQJV ++/GgVAhsDBwsJCAcDAgEGFQgCCQoLBBYCAwECHgECF4AACgkQeXnQmhdGW9PFVAP+ ++K7TU0qX5ArvIONIxh/WAweyOk884c5cE8f+3NOPOOCRGyVy0FId5A7MmD5GOQh4H ++JseOZVEVCqlmngEvtHZb3U1VYtVGE5WZ+6rQhGsMcWP5qaT4soYwMBlSYxgYwQcx ++YhN9qOr292f9j2Y//TTIJmZT4Oa+lMxhWdqTfX+qMgG4jQRV/GgVAQQArhFSiij1 ++b+hT3dnapbEU+23Z1yTu1DfF6zsxQ4XQWEV3eR8v+8mEDDNcz8oyyF56k6UQ3rXi ++UMTIwRDg4V6SbZmaFbZYCOwp/EmXJ3rfhm7z7yzXj2OFN22luuqbyVhuL7LRdB0M ++pxgmjXb4tTvfgKd26x34S+QqUJ7W6uprY4sAEQEAAYifBBgBCgAJBQJV/GgVAhsM ++AAoJEHl50JoXRlvT7y8D/02ckx4OMkKBZo7viyrBw0MLG92i+DC2bs35PooHR6zz ++786mitjOp5z2QWNLBvxC70S0qVfCIz8jKupO1J6rq6Z8CcbLF3qjm6h1omUBf8Nd ++EfXKD2/2HV6zMKVknnKzIEzauh+eCKS2CeJUSSSryap/QLVAjRnckaES/OsEWhNB ++=RZia ++-----END PGP PUBLIC KEY BLOCK----- ++` ++ ++const signedMessageV3 = `-----BEGIN PGP MESSAGE----- ++Comment: GPGTools - https://gpgtools.org ++ ++owGbwMvMwMVYWXlhlrhb9GXG03JJDKF/MtxDMjKLFYAoUaEktbhEITe1uDgxPVWP ++q5NhKjMrWAVcC9evD8z/bF/uWNjqtk/X3y5/38XGRQHm/57rrDRYuGnTw597Xqka ++uM3137/hH3Os+Jf2dc0fXOITKwJvXJvecPVs0ta+Vg7ZO1MLn8w58Xx+6L58mbka ++DGHyU9yTueZE8D+QF/Tz28Y78dqtF56R1VPn9Xw4uJqrWYdd7b3vIZ1V6R4Nh05d ++iT57d/OhWwA= ++=hG7R ++-----END PGP MESSAGE----- ++` diff --git a/vendor/github.com/keybase/go-crypto/openpgp/write.go b/vendor/github.com/keybase/go-crypto/openpgp/write.go new file mode 100644 index 00000000..03b019e7 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/openpgp/write.go @@ -0,0 +1,495 @@ +// Copyright 2011 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package openpgp + +import ( + "crypto" + "hash" + "io" + "strconv" + "time" + + "github.com/keybase/go-crypto/openpgp/armor" + "github.com/keybase/go-crypto/openpgp/errors" + "github.com/keybase/go-crypto/openpgp/packet" + "github.com/keybase/go-crypto/openpgp/s2k" +) + +// DetachSign signs message with the private key from signer (which must +// already have been decrypted) and writes the signature to w. +// If config is nil, sensible defaults will be used. +func DetachSign(w io.Writer, signer *Entity, message io.Reader, config *packet.Config) error { + return detachSign(w, signer, message, packet.SigTypeBinary, config) +} + +// ArmoredDetachSign signs message with the private key from signer (which +// must already have been decrypted) and writes an armored signature to w. +// If config is nil, sensible defaults will be used. +func ArmoredDetachSign(w io.Writer, signer *Entity, message io.Reader, config *packet.Config) (err error) { + return armoredDetachSign(w, signer, message, packet.SigTypeBinary, config) +} + +// DetachSignText signs message (after canonicalising the line endings) with +// the private key from signer (which must already have been decrypted) and +// writes the signature to w. +// If config is nil, sensible defaults will be used. +func DetachSignText(w io.Writer, signer *Entity, message io.Reader, config *packet.Config) error { + return detachSign(w, signer, message, packet.SigTypeText, config) +} + +// ArmoredDetachSignText signs message (after canonicalising the line endings) +// with the private key from signer (which must already have been decrypted) +// and writes an armored signature to w. +// If config is nil, sensible defaults will be used. +func ArmoredDetachSignText(w io.Writer, signer *Entity, message io.Reader, config *packet.Config) error { + return armoredDetachSign(w, signer, message, packet.SigTypeText, config) +} + +func armoredDetachSign(w io.Writer, signer *Entity, message io.Reader, sigType packet.SignatureType, config *packet.Config) (err error) { + out, err := armor.Encode(w, SignatureType, nil) + if err != nil { + return + } + err = detachSign(out, signer, message, sigType, config) + if err != nil { + return + } + return out.Close() +} + +// SignWithSigner signs the message of type sigType with s and writes the +// signature to w. +// If config is nil, sensible defaults will be used. +func SignWithSigner(s packet.Signer, w io.Writer, message io.Reader, sigType packet.SignatureType, config *packet.Config) (err error) { + keyId := s.KeyId() + sig := new(packet.Signature) + sig.SigType = sigType + sig.PubKeyAlgo = s.PublicKeyAlgo() + sig.Hash = config.Hash() + sig.CreationTime = config.Now() + sig.IssuerKeyId = &keyId + + s.Reset() + + wrapped := s.(hash.Hash) + + if sigType == packet.SigTypeText { + wrapped = NewCanonicalTextHash(s) + } + + io.Copy(wrapped, message) + + err = sig.Sign(s, nil, config) + if err != nil { + return + } + + err = sig.Serialize(w) + + return +} + +func detachSign(w io.Writer, signer *Entity, message io.Reader, sigType packet.SignatureType, config *packet.Config) (err error) { + signerSubkey, ok := signer.signingKey(config.Now()) + if !ok { + err = errors.InvalidArgumentError("no valid signing keys") + return + } + if signerSubkey.PrivateKey == nil { + return errors.InvalidArgumentError("signing key doesn't have a private key") + } + if signerSubkey.PrivateKey.Encrypted { + return errors.InvalidArgumentError("signing key is encrypted") + } + + sig := new(packet.Signature) + sig.SigType = sigType + sig.PubKeyAlgo = signerSubkey.PrivateKey.PubKeyAlgo + sig.Hash = config.Hash() + sig.CreationTime = config.Now() + sig.IssuerKeyId = &signerSubkey.PrivateKey.KeyId + + h, wrappedHash, err := hashForSignature(sig.Hash, sig.SigType) + if err != nil { + return + } + io.Copy(wrappedHash, message) + + err = sig.Sign(h, signerSubkey.PrivateKey, config) + if err != nil { + return + } + + return sig.Serialize(w) +} + +// FileHints contains metadata about encrypted files. This metadata is, itself, +// encrypted. +type FileHints struct { + // IsBinary can be set to hint that the contents are binary data. + IsBinary bool + // FileName hints at the name of the file that should be written. It's + // truncated to 255 bytes if longer. It may be empty to suggest that the + // file should not be written to disk. It may be equal to "_CONSOLE" to + // suggest the data should not be written to disk. + FileName string + // ModTime contains the modification time of the file, or the zero time if not applicable. + ModTime time.Time +} + +// SymmetricallyEncrypt acts like gpg -c: it encrypts a file with a passphrase. +// The resulting WriteCloser must be closed after the contents of the file have +// been written. +// If config is nil, sensible defaults will be used. +func SymmetricallyEncrypt(ciphertext io.Writer, passphrase []byte, hints *FileHints, config *packet.Config) (plaintext io.WriteCloser, err error) { + if hints == nil { + hints = &FileHints{} + } + + key, err := packet.SerializeSymmetricKeyEncrypted(ciphertext, passphrase, config) + if err != nil { + return + } + w, err := packet.SerializeSymmetricallyEncrypted(ciphertext, config.Cipher(), key, config) + if err != nil { + return + } + + literaldata := w + if algo := config.Compression(); algo != packet.CompressionNone { + var compConfig *packet.CompressionConfig + if config != nil { + compConfig = config.CompressionConfig + } + literaldata, err = packet.SerializeCompressed(w, algo, compConfig) + if err != nil { + return + } + } + + var epochSeconds uint32 + if !hints.ModTime.IsZero() { + epochSeconds = uint32(hints.ModTime.Unix()) + } + return packet.SerializeLiteral(literaldata, hints.IsBinary, hints.FileName, epochSeconds) +} + +// intersectPreferences mutates and returns a prefix of a that contains only +// the values in the intersection of a and b. The order of a is preserved. +func intersectPreferences(a []uint8, b []uint8) (intersection []uint8) { + var j int + for _, v := range a { + for _, v2 := range b { + if v == v2 { + a[j] = v + j++ + break + } + } + } + + return a[:j] +} + +func hashToHashId(h crypto.Hash) uint8 { + v, ok := s2k.HashToHashId(h) + if !ok { + panic("tried to convert unknown hash") + } + return v +} + +// Encrypt encrypts a message to a number of recipients and, optionally, signs +// it. hints contains optional information, that is also encrypted, that aids +// the recipients in processing the message. The resulting WriteCloser must +// be closed after the contents of the file have been written. +// If config is nil, sensible defaults will be used. +func Encrypt(ciphertext io.Writer, to []*Entity, signed *Entity, hints *FileHints, config *packet.Config) (plaintext io.WriteCloser, err error) { + var signer *packet.PrivateKey + if signed != nil { + signKey, ok := signed.signingKey(config.Now()) + if !ok { + return nil, errors.InvalidArgumentError("no valid signing keys") + } + signer = signKey.PrivateKey + if signer == nil { + return nil, errors.InvalidArgumentError("no private key in signing key") + } + if signer.Encrypted { + return nil, errors.InvalidArgumentError("signing key must be decrypted") + } + } + + // These are the possible ciphers that we'll use for the message. + candidateCiphers := []uint8{ + uint8(packet.CipherAES128), + uint8(packet.CipherAES256), + uint8(packet.CipherCAST5), + } + // These are the possible hash functions that we'll use for the signature. + candidateHashes := []uint8{ + hashToHashId(crypto.SHA256), + hashToHashId(crypto.SHA512), + hashToHashId(crypto.SHA1), + hashToHashId(crypto.RIPEMD160), + } + + // If no preferences were specified, assume something safe and reasonable. + defaultCiphers := []uint8{ + uint8(packet.CipherAES128), + uint8(packet.CipherAES192), + uint8(packet.CipherAES256), + uint8(packet.CipherCAST5), + } + + defaultHashes := []uint8{ + hashToHashId(crypto.SHA256), + hashToHashId(crypto.SHA512), + hashToHashId(crypto.RIPEMD160), + } + + encryptKeys := make([]Key, len(to)) + for i := range to { + var ok bool + encryptKeys[i], ok = to[i].encryptionKey(config.Now()) + if !ok { + return nil, errors.InvalidArgumentError("cannot encrypt a message to key id " + strconv.FormatUint(to[i].PrimaryKey.KeyId, 16) + " because it has no encryption keys") + } + + sig := to[i].primaryIdentity().SelfSignature + + preferredSymmetric := sig.PreferredSymmetric + if len(preferredSymmetric) == 0 { + preferredSymmetric = defaultCiphers + } + preferredHashes := sig.PreferredHash + if len(preferredHashes) == 0 { + preferredHashes = defaultHashes + } + candidateCiphers = intersectPreferences(candidateCiphers, preferredSymmetric) + candidateHashes = intersectPreferences(candidateHashes, preferredHashes) + } + + if len(candidateCiphers) == 0 { + return nil, errors.InvalidArgumentError("cannot encrypt because recipient set shares no common ciphers") + } + if len(candidateHashes) == 0 { + return nil, errors.InvalidArgumentError("cannot encrypt because recipient set shares no common hashes") + } + + cipher := packet.CipherFunction(candidateCiphers[0]) + // If the cipher specifed by config is a candidate, we'll use that. + configuredCipher := config.Cipher() + for _, c := range candidateCiphers { + cipherFunc := packet.CipherFunction(c) + if cipherFunc == configuredCipher { + cipher = cipherFunc + break + } + } + + var hash crypto.Hash + for _, hashId := range candidateHashes { + if h, ok := s2k.HashIdToHash(hashId); ok && h.Available() { + hash = h + break + } + } + + // If the hash specified by config is a candidate, we'll use that. + if configuredHash := config.Hash(); configuredHash.Available() { + for _, hashId := range candidateHashes { + if h, ok := s2k.HashIdToHash(hashId); ok && h == configuredHash { + hash = h + break + } + } + } + + if hash == 0 { + hashId := candidateHashes[0] + name, ok := s2k.HashIdToString(hashId) + if !ok { + name = "#" + strconv.Itoa(int(hashId)) + } + return nil, errors.InvalidArgumentError("cannot encrypt because no candidate hash functions are compiled in. (Wanted " + name + " in this case.)") + } + + symKey := make([]byte, cipher.KeySize()) + if _, err := io.ReadFull(config.Random(), symKey); err != nil { + return nil, err + } + + for _, key := range encryptKeys { + if err := packet.SerializeEncryptedKey(ciphertext, key.PublicKey, cipher, symKey, config); err != nil { + return nil, err + } + } + + encryptedData, err := packet.SerializeSymmetricallyEncrypted(ciphertext, cipher, symKey, config) + if err != nil { + return + } + + if signer != nil { + ops := &packet.OnePassSignature{ + SigType: packet.SigTypeBinary, + Hash: hash, + PubKeyAlgo: signer.PubKeyAlgo, + KeyId: signer.KeyId, + IsLast: true, + } + if err := ops.Serialize(encryptedData); err != nil { + return nil, err + } + } + + if hints == nil { + hints = &FileHints{} + } + + w := encryptedData + if signer != nil { + // If we need to write a signature packet after the literal + // data then we need to stop literalData from closing + // encryptedData. + w = noOpCloser{encryptedData} + + } + var epochSeconds uint32 + if !hints.ModTime.IsZero() { + epochSeconds = uint32(hints.ModTime.Unix()) + } + literalData, err := packet.SerializeLiteral(w, hints.IsBinary, hints.FileName, epochSeconds) + if err != nil { + return nil, err + } + + if signer != nil { + return signatureWriter{encryptedData, literalData, hash, hash.New(), signer, config}, nil + } + return literalData, nil +} + +// signatureWriter hashes the contents of a message while passing it along to +// literalData. When closed, it closes literalData, writes a signature packet +// to encryptedData and then also closes encryptedData. +type signatureWriter struct { + encryptedData io.WriteCloser + literalData io.WriteCloser + hashType crypto.Hash + h hash.Hash + signer *packet.PrivateKey + config *packet.Config +} + +func (s signatureWriter) Write(data []byte) (int, error) { + s.h.Write(data) + return s.literalData.Write(data) +} + +func (s signatureWriter) Close() error { + sig := &packet.Signature{ + SigType: packet.SigTypeBinary, + PubKeyAlgo: s.signer.PubKeyAlgo, + Hash: s.hashType, + CreationTime: s.config.Now(), + IssuerKeyId: &s.signer.KeyId, + } + + if err := sig.Sign(s.h, s.signer, s.config); err != nil { + return err + } + if err := s.literalData.Close(); err != nil { + return err + } + if err := sig.Serialize(s.encryptedData); err != nil { + return err + } + return s.encryptedData.Close() +} + +// noOpCloser is like an ioutil.NopCloser, but for an io.Writer. +// TODO: we have two of these in OpenPGP packages alone. This probably needs +// to be promoted somewhere more common. +type noOpCloser struct { + w io.Writer +} + +func (c noOpCloser) Write(data []byte) (n int, err error) { + return c.w.Write(data) +} + +func (c noOpCloser) Close() error { + return nil +} + +// AttachedSign is like openpgp.Encrypt (as in p.crypto/openpgp/write.go), but +// don't encrypt at all, just sign the literal unencrypted data. +// Unfortunately we need to duplicate some code here that's already +// in write.go +func AttachedSign(out io.WriteCloser, signed Entity, hints *FileHints, + config *packet.Config) (in io.WriteCloser, err error) { + + if hints == nil { + hints = &FileHints{} + } + + if config == nil { + config = &packet.Config{} + } + + var signer *packet.PrivateKey + + signKey, ok := signed.signingKey(config.Now()) + if !ok { + err = errors.InvalidArgumentError("no valid signing keys") + return + } + signer = signKey.PrivateKey + if signer == nil { + err = errors.InvalidArgumentError("no valid signing keys") + return + } + if signer.Encrypted { + err = errors.InvalidArgumentError("signing key must be decrypted") + return + } + + hasher := crypto.SHA512 + + ops := &packet.OnePassSignature{ + SigType: packet.SigTypeBinary, + Hash: hasher, + PubKeyAlgo: signer.PubKeyAlgo, + KeyId: signer.KeyId, + IsLast: true, + } + + if err = ops.Serialize(out); err != nil { + return + } + + var epochSeconds uint32 + if !hints.ModTime.IsZero() { + epochSeconds = uint32(hints.ModTime.Unix()) + } + + // We don't want the literal serializer to closer the output stream + // since we're going to need to write to it when we finish up the + // signature stuff. + in, err = packet.SerializeLiteral(noOpCloser{out}, hints.IsBinary, hints.FileName, epochSeconds) + + if err != nil { + return + } + + // If we need to write a signature packet after the literal + // data then we need to stop literalData from closing + // encryptedData. + in = signatureWriter{out, in, hasher, hasher.New(), signer, config} + + return +} diff --git a/vendor/github.com/keybase/go-crypto/rsa/pkcs1v15.go b/vendor/github.com/keybase/go-crypto/rsa/pkcs1v15.go new file mode 100644 index 00000000..5c5f415c --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/rsa/pkcs1v15.go @@ -0,0 +1,325 @@ +// Copyright 2009 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package rsa + +import ( + "crypto" + "crypto/subtle" + "errors" + "io" + "math/big" +) + +// This file implements encryption and decryption using PKCS#1 v1.5 padding. + +// PKCS1v15DecrypterOpts is for passing options to PKCS#1 v1.5 decryption using +// the crypto.Decrypter interface. +type PKCS1v15DecryptOptions struct { + // SessionKeyLen is the length of the session key that is being + // decrypted. If not zero, then a padding error during decryption will + // cause a random plaintext of this length to be returned rather than + // an error. These alternatives happen in constant time. + SessionKeyLen int +} + +// EncryptPKCS1v15 encrypts the given message with RSA and the padding scheme from PKCS#1 v1.5. +// The message must be no longer than the length of the public modulus minus 11 bytes. +// +// The rand parameter is used as a source of entropy to ensure that encrypting +// the same message twice doesn't result in the same ciphertext. +// +// WARNING: use of this function to encrypt plaintexts other than session keys +// is dangerous. Use RSA OAEP in new protocols. +func EncryptPKCS1v15(rand io.Reader, pub *PublicKey, msg []byte) (out []byte, err error) { + if err := checkPub(pub); err != nil { + return nil, err + } + k := (pub.N.BitLen() + 7) / 8 + if len(msg) > k-11 { + err = ErrMessageTooLong + return + } + + // EM = 0x00 || 0x02 || PS || 0x00 || M + em := make([]byte, k) + em[1] = 2 + ps, mm := em[2:len(em)-len(msg)-1], em[len(em)-len(msg):] + err = nonZeroRandomBytes(ps, rand) + if err != nil { + return + } + em[len(em)-len(msg)-1] = 0 + copy(mm, msg) + + m := new(big.Int).SetBytes(em) + c := encrypt(new(big.Int), pub, m) + + copyWithLeftPad(em, c.Bytes()) + out = em + return +} + +// DecryptPKCS1v15 decrypts a plaintext using RSA and the padding scheme from PKCS#1 v1.5. +// If rand != nil, it uses RSA blinding to avoid timing side-channel attacks. +// +// Note that whether this function returns an error or not discloses secret +// information. If an attacker can cause this function to run repeatedly and +// learn whether each instance returned an error then they can decrypt and +// forge signatures as if they had the private key. See +// DecryptPKCS1v15SessionKey for a way of solving this problem. +func DecryptPKCS1v15(rand io.Reader, priv *PrivateKey, ciphertext []byte) (out []byte, err error) { + if err := checkPub(&priv.PublicKey); err != nil { + return nil, err + } + valid, out, index, err := decryptPKCS1v15(rand, priv, ciphertext) + if err != nil { + return + } + if valid == 0 { + return nil, ErrDecryption + } + out = out[index:] + return +} + +// DecryptPKCS1v15SessionKey decrypts a session key using RSA and the padding scheme from PKCS#1 v1.5. +// If rand != nil, it uses RSA blinding to avoid timing side-channel attacks. +// It returns an error if the ciphertext is the wrong length or if the +// ciphertext is greater than the public modulus. Otherwise, no error is +// returned. If the padding is valid, the resulting plaintext message is copied +// into key. Otherwise, key is unchanged. These alternatives occur in constant +// time. It is intended that the user of this function generate a random +// session key beforehand and continue the protocol with the resulting value. +// This will remove any possibility that an attacker can learn any information +// about the plaintext. +// See ``Chosen Ciphertext Attacks Against Protocols Based on the RSA +// Encryption Standard PKCS #1'', Daniel Bleichenbacher, Advances in Cryptology +// (Crypto '98). +// +// Note that if the session key is too small then it may be possible for an +// attacker to brute-force it. If they can do that then they can learn whether +// a random value was used (because it'll be different for the same ciphertext) +// and thus whether the padding was correct. This defeats the point of this +// function. Using at least a 16-byte key will protect against this attack. +func DecryptPKCS1v15SessionKey(rand io.Reader, priv *PrivateKey, ciphertext []byte, key []byte) (err error) { + if err := checkPub(&priv.PublicKey); err != nil { + return err + } + k := (priv.N.BitLen() + 7) / 8 + if k-(len(key)+3+8) < 0 { + return ErrDecryption + } + + valid, em, index, err := decryptPKCS1v15(rand, priv, ciphertext) + if err != nil { + return + } + + if len(em) != k { + // This should be impossible because decryptPKCS1v15 always + // returns the full slice. + return ErrDecryption + } + + valid &= subtle.ConstantTimeEq(int32(len(em)-index), int32(len(key))) + subtle.ConstantTimeCopy(valid, key, em[len(em)-len(key):]) + return +} + +// decryptPKCS1v15 decrypts ciphertext using priv and blinds the operation if +// rand is not nil. It returns one or zero in valid that indicates whether the +// plaintext was correctly structured. In either case, the plaintext is +// returned in em so that it may be read independently of whether it was valid +// in order to maintain constant memory access patterns. If the plaintext was +// valid then index contains the index of the original message in em. +func decryptPKCS1v15(rand io.Reader, priv *PrivateKey, ciphertext []byte) (valid int, em []byte, index int, err error) { + k := (priv.N.BitLen() + 7) / 8 + if k < 11 { + err = ErrDecryption + return + } + + c := new(big.Int).SetBytes(ciphertext) + m, err := decrypt(rand, priv, c) + if err != nil { + return + } + + em = leftPad(m.Bytes(), k) + firstByteIsZero := subtle.ConstantTimeByteEq(em[0], 0) + secondByteIsTwo := subtle.ConstantTimeByteEq(em[1], 2) + + // The remainder of the plaintext must be a string of non-zero random + // octets, followed by a 0, followed by the message. + // lookingForIndex: 1 iff we are still looking for the zero. + // index: the offset of the first zero byte. + lookingForIndex := 1 + + for i := 2; i < len(em); i++ { + equals0 := subtle.ConstantTimeByteEq(em[i], 0) + index = subtle.ConstantTimeSelect(lookingForIndex&equals0, i, index) + lookingForIndex = subtle.ConstantTimeSelect(equals0, 0, lookingForIndex) + } + + // The PS padding must be at least 8 bytes long, and it starts two + // bytes into em. + validPS := subtle.ConstantTimeLessOrEq(2+8, index) + + valid = firstByteIsZero & secondByteIsTwo & (^lookingForIndex & 1) & validPS + index = subtle.ConstantTimeSelect(valid, index+1, 0) + return valid, em, index, nil +} + +// nonZeroRandomBytes fills the given slice with non-zero random octets. +func nonZeroRandomBytes(s []byte, rand io.Reader) (err error) { + _, err = io.ReadFull(rand, s) + if err != nil { + return + } + + for i := 0; i < len(s); i++ { + for s[i] == 0 { + _, err = io.ReadFull(rand, s[i:i+1]) + if err != nil { + return + } + // In tests, the PRNG may return all zeros so we do + // this to break the loop. + s[i] ^= 0x42 + } + } + + return +} + +// These are ASN1 DER structures: +// DigestInfo ::= SEQUENCE { +// digestAlgorithm AlgorithmIdentifier, +// digest OCTET STRING +// } +// For performance, we don't use the generic ASN1 encoder. Rather, we +// precompute a prefix of the digest value that makes a valid ASN1 DER string +// with the correct contents. +var hashPrefixes = map[crypto.Hash][]byte{ + crypto.MD5: {0x30, 0x20, 0x30, 0x0c, 0x06, 0x08, 0x2a, 0x86, 0x48, 0x86, 0xf7, 0x0d, 0x02, 0x05, 0x05, 0x00, 0x04, 0x10}, + crypto.SHA1: {0x30, 0x21, 0x30, 0x09, 0x06, 0x05, 0x2b, 0x0e, 0x03, 0x02, 0x1a, 0x05, 0x00, 0x04, 0x14}, + crypto.SHA224: {0x30, 0x2d, 0x30, 0x0d, 0x06, 0x09, 0x60, 0x86, 0x48, 0x01, 0x65, 0x03, 0x04, 0x02, 0x04, 0x05, 0x00, 0x04, 0x1c}, + crypto.SHA256: {0x30, 0x31, 0x30, 0x0d, 0x06, 0x09, 0x60, 0x86, 0x48, 0x01, 0x65, 0x03, 0x04, 0x02, 0x01, 0x05, 0x00, 0x04, 0x20}, + crypto.SHA384: {0x30, 0x41, 0x30, 0x0d, 0x06, 0x09, 0x60, 0x86, 0x48, 0x01, 0x65, 0x03, 0x04, 0x02, 0x02, 0x05, 0x00, 0x04, 0x30}, + crypto.SHA512: {0x30, 0x51, 0x30, 0x0d, 0x06, 0x09, 0x60, 0x86, 0x48, 0x01, 0x65, 0x03, 0x04, 0x02, 0x03, 0x05, 0x00, 0x04, 0x40}, + crypto.MD5SHA1: {}, // A special TLS case which doesn't use an ASN1 prefix. + crypto.RIPEMD160: {0x30, 0x20, 0x30, 0x08, 0x06, 0x06, 0x28, 0xcf, 0x06, 0x03, 0x00, 0x31, 0x04, 0x14}, +} + +// SignPKCS1v15 calculates the signature of hashed using RSASSA-PKCS1-V1_5-SIGN from RSA PKCS#1 v1.5. +// Note that hashed must be the result of hashing the input message using the +// given hash function. If hash is zero, hashed is signed directly. This isn't +// advisable except for interoperability. +// +// If rand is not nil then RSA blinding will be used to avoid timing side-channel attacks. +// +// This function is deterministic. Thus, if the set of possible messages is +// small, an attacker may be able to build a map from messages to signatures +// and identify the signed messages. As ever, signatures provide authenticity, +// not confidentiality. +func SignPKCS1v15(rand io.Reader, priv *PrivateKey, hash crypto.Hash, hashed []byte) (s []byte, err error) { + hashLen, prefix, err := pkcs1v15HashInfo(hash, len(hashed)) + if err != nil { + return + } + + tLen := len(prefix) + hashLen + k := (priv.N.BitLen() + 7) / 8 + if k < tLen+11 { + return nil, ErrMessageTooLong + } + + // EM = 0x00 || 0x01 || PS || 0x00 || T + em := make([]byte, k) + em[1] = 1 + for i := 2; i < k-tLen-1; i++ { + em[i] = 0xff + } + copy(em[k-tLen:k-hashLen], prefix) + copy(em[k-hashLen:k], hashed) + + m := new(big.Int).SetBytes(em) + c, err := decryptAndCheck(rand, priv, m) + if err != nil { + return + } + + copyWithLeftPad(em, c.Bytes()) + s = em + return +} + +// VerifyPKCS1v15 verifies an RSA PKCS#1 v1.5 signature. +// hashed is the result of hashing the input message using the given hash +// function and sig is the signature. A valid signature is indicated by +// returning a nil error. If hash is zero then hashed is used directly. This +// isn't advisable except for interoperability. +func VerifyPKCS1v15(pub *PublicKey, hash crypto.Hash, hashed []byte, sig []byte) (err error) { + hashLen, prefix, err := pkcs1v15HashInfo(hash, len(hashed)) + if err != nil { + return + } + + tLen := len(prefix) + hashLen + k := (pub.N.BitLen() + 7) / 8 + if k < tLen+11 { + err = ErrVerification + return + } + + c := new(big.Int).SetBytes(sig) + m := encrypt(new(big.Int), pub, c) + em := leftPad(m.Bytes(), k) + // EM = 0x00 || 0x01 || PS || 0x00 || T + + ok := subtle.ConstantTimeByteEq(em[0], 0) + ok &= subtle.ConstantTimeByteEq(em[1], 1) + ok &= subtle.ConstantTimeCompare(em[k-hashLen:k], hashed) + ok &= subtle.ConstantTimeCompare(em[k-tLen:k-hashLen], prefix) + ok &= subtle.ConstantTimeByteEq(em[k-tLen-1], 0) + + for i := 2; i < k-tLen-1; i++ { + ok &= subtle.ConstantTimeByteEq(em[i], 0xff) + } + + if ok != 1 { + return ErrVerification + } + + return nil +} + +func pkcs1v15HashInfo(hash crypto.Hash, inLen int) (hashLen int, prefix []byte, err error) { + // Special case: crypto.Hash(0) is used to indicate that the data is + // signed directly. + if hash == 0 { + return inLen, nil, nil + } + + hashLen = hash.Size() + if inLen != hashLen { + return 0, nil, errors.New("crypto/rsa: input must be hashed message") + } + prefix, ok := hashPrefixes[hash] + if !ok { + return 0, nil, errors.New("crypto/rsa: unsupported hash function") + } + return +} + +// copyWithLeftPad copies src to the end of dest, padding with zero bytes as +// needed. +func copyWithLeftPad(dest, src []byte) { + numPaddingBytes := len(dest) - len(src) + for i := 0; i < numPaddingBytes; i++ { + dest[i] = 0 + } + copy(dest[numPaddingBytes:], src) +} diff --git a/vendor/github.com/keybase/go-crypto/rsa/pss.go b/vendor/github.com/keybase/go-crypto/rsa/pss.go new file mode 100644 index 00000000..8a94589b --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/rsa/pss.go @@ -0,0 +1,297 @@ +// Copyright 2013 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package rsa + +// This file implements the PSS signature scheme [1]. +// +// [1] http://www.rsa.com/rsalabs/pkcs/files/h11300-wp-pkcs-1v2-2-rsa-cryptography-standard.pdf + +import ( + "bytes" + "crypto" + "errors" + "hash" + "io" + "math/big" +) + +func emsaPSSEncode(mHash []byte, emBits int, salt []byte, hash hash.Hash) ([]byte, error) { + // See [1], section 9.1.1 + hLen := hash.Size() + sLen := len(salt) + emLen := (emBits + 7) / 8 + + // 1. If the length of M is greater than the input limitation for the + // hash function (2^61 - 1 octets for SHA-1), output "message too + // long" and stop. + // + // 2. Let mHash = Hash(M), an octet string of length hLen. + + if len(mHash) != hLen { + return nil, errors.New("crypto/rsa: input must be hashed message") + } + + // 3. If emLen < hLen + sLen + 2, output "encoding error" and stop. + + if emLen < hLen+sLen+2 { + return nil, errors.New("crypto/rsa: encoding error") + } + + em := make([]byte, emLen) + db := em[:emLen-sLen-hLen-2+1+sLen] + h := em[emLen-sLen-hLen-2+1+sLen : emLen-1] + + // 4. Generate a random octet string salt of length sLen; if sLen = 0, + // then salt is the empty string. + // + // 5. Let + // M' = (0x)00 00 00 00 00 00 00 00 || mHash || salt; + // + // M' is an octet string of length 8 + hLen + sLen with eight + // initial zero octets. + // + // 6. Let H = Hash(M'), an octet string of length hLen. + + var prefix [8]byte + + hash.Write(prefix[:]) + hash.Write(mHash) + hash.Write(salt) + + h = hash.Sum(h[:0]) + hash.Reset() + + // 7. Generate an octet string PS consisting of emLen - sLen - hLen - 2 + // zero octets. The length of PS may be 0. + // + // 8. Let DB = PS || 0x01 || salt; DB is an octet string of length + // emLen - hLen - 1. + + db[emLen-sLen-hLen-2] = 0x01 + copy(db[emLen-sLen-hLen-1:], salt) + + // 9. Let dbMask = MGF(H, emLen - hLen - 1). + // + // 10. Let maskedDB = DB \xor dbMask. + + mgf1XOR(db, hash, h) + + // 11. Set the leftmost 8 * emLen - emBits bits of the leftmost octet in + // maskedDB to zero. + + db[0] &= (0xFF >> uint(8*emLen-emBits)) + + // 12. Let EM = maskedDB || H || 0xbc. + em[emLen-1] = 0xBC + + // 13. Output EM. + return em, nil +} + +func emsaPSSVerify(mHash, em []byte, emBits, sLen int, hash hash.Hash) error { + // 1. If the length of M is greater than the input limitation for the + // hash function (2^61 - 1 octets for SHA-1), output "inconsistent" + // and stop. + // + // 2. Let mHash = Hash(M), an octet string of length hLen. + hLen := hash.Size() + if hLen != len(mHash) { + return ErrVerification + } + + // 3. If emLen < hLen + sLen + 2, output "inconsistent" and stop. + emLen := (emBits + 7) / 8 + if emLen < hLen+sLen+2 { + return ErrVerification + } + + // 4. If the rightmost octet of EM does not have hexadecimal value + // 0xbc, output "inconsistent" and stop. + if em[len(em)-1] != 0xBC { + return ErrVerification + } + + // 5. Let maskedDB be the leftmost emLen - hLen - 1 octets of EM, and + // let H be the next hLen octets. + db := em[:emLen-hLen-1] + h := em[emLen-hLen-1 : len(em)-1] + + // 6. If the leftmost 8 * emLen - emBits bits of the leftmost octet in + // maskedDB are not all equal to zero, output "inconsistent" and + // stop. + if em[0]&(0xFF<> uint(8*emLen-emBits)) + + if sLen == PSSSaltLengthAuto { + FindSaltLength: + for sLen = emLen - (hLen + 2); sLen >= 0; sLen-- { + switch db[emLen-hLen-sLen-2] { + case 1: + break FindSaltLength + case 0: + continue + default: + return ErrVerification + } + } + if sLen < 0 { + return ErrVerification + } + } else { + // 10. If the emLen - hLen - sLen - 2 leftmost octets of DB are not zero + // or if the octet at position emLen - hLen - sLen - 1 (the leftmost + // position is "position 1") does not have hexadecimal value 0x01, + // output "inconsistent" and stop. + for _, e := range db[:emLen-hLen-sLen-2] { + if e != 0x00 { + return ErrVerification + } + } + if db[emLen-hLen-sLen-2] != 0x01 { + return ErrVerification + } + } + + // 11. Let salt be the last sLen octets of DB. + salt := db[len(db)-sLen:] + + // 12. Let + // M' = (0x)00 00 00 00 00 00 00 00 || mHash || salt ; + // M' is an octet string of length 8 + hLen + sLen with eight + // initial zero octets. + // + // 13. Let H' = Hash(M'), an octet string of length hLen. + var prefix [8]byte + hash.Write(prefix[:]) + hash.Write(mHash) + hash.Write(salt) + + h0 := hash.Sum(nil) + + // 14. If H = H', output "consistent." Otherwise, output "inconsistent." + if !bytes.Equal(h0, h) { + return ErrVerification + } + return nil +} + +// signPSSWithSalt calculates the signature of hashed using PSS [1] with specified salt. +// Note that hashed must be the result of hashing the input message using the +// given hash function. salt is a random sequence of bytes whose length will be +// later used to verify the signature. +func signPSSWithSalt(rand io.Reader, priv *PrivateKey, hash crypto.Hash, hashed, salt []byte) (s []byte, err error) { + nBits := priv.N.BitLen() + em, err := emsaPSSEncode(hashed, nBits-1, salt, hash.New()) + if err != nil { + return + } + m := new(big.Int).SetBytes(em) + c, err := decryptAndCheck(rand, priv, m) + if err != nil { + return + } + s = make([]byte, (nBits+7)/8) + copyWithLeftPad(s, c.Bytes()) + return +} + +const ( + // PSSSaltLengthAuto causes the salt in a PSS signature to be as large + // as possible when signing, and to be auto-detected when verifying. + PSSSaltLengthAuto = 0 + // PSSSaltLengthEqualsHash causes the salt length to equal the length + // of the hash used in the signature. + PSSSaltLengthEqualsHash = -1 +) + +// PSSOptions contains options for creating and verifying PSS signatures. +type PSSOptions struct { + // SaltLength controls the length of the salt used in the PSS + // signature. It can either be a number of bytes, or one of the special + // PSSSaltLength constants. + SaltLength int + + // Hash, if not zero, overrides the hash function passed to SignPSS. + // This is the only way to specify the hash function when using the + // crypto.Signer interface. + Hash crypto.Hash +} + +// HashFunc returns pssOpts.Hash so that PSSOptions implements +// crypto.SignerOpts. +func (pssOpts *PSSOptions) HashFunc() crypto.Hash { + return pssOpts.Hash +} + +func (opts *PSSOptions) saltLength() int { + if opts == nil { + return PSSSaltLengthAuto + } + return opts.SaltLength +} + +// SignPSS calculates the signature of hashed using RSASSA-PSS [1]. +// Note that hashed must be the result of hashing the input message using the +// given hash function. The opts argument may be nil, in which case sensible +// defaults are used. +func SignPSS(rand io.Reader, priv *PrivateKey, hash crypto.Hash, hashed []byte, opts *PSSOptions) (s []byte, err error) { + saltLength := opts.saltLength() + switch saltLength { + case PSSSaltLengthAuto: + saltLength = (priv.N.BitLen()+7)/8 - 2 - hash.Size() + case PSSSaltLengthEqualsHash: + saltLength = hash.Size() + } + + if opts != nil && opts.Hash != 0 { + hash = opts.Hash + } + + salt := make([]byte, saltLength) + if _, err = io.ReadFull(rand, salt); err != nil { + return + } + return signPSSWithSalt(rand, priv, hash, hashed, salt) +} + +// VerifyPSS verifies a PSS signature. +// hashed is the result of hashing the input message using the given hash +// function and sig is the signature. A valid signature is indicated by +// returning a nil error. The opts argument may be nil, in which case sensible +// defaults are used. +func VerifyPSS(pub *PublicKey, hash crypto.Hash, hashed []byte, sig []byte, opts *PSSOptions) error { + return verifyPSS(pub, hash, hashed, sig, opts.saltLength()) +} + +// verifyPSS verifies a PSS signature with the given salt length. +func verifyPSS(pub *PublicKey, hash crypto.Hash, hashed []byte, sig []byte, saltLen int) error { + nBits := pub.N.BitLen() + if len(sig) != (nBits+7)/8 { + return ErrVerification + } + s := new(big.Int).SetBytes(sig) + m := encrypt(new(big.Int), pub, s) + emBits := nBits - 1 + emLen := (emBits + 7) / 8 + if emLen < len(m.Bytes()) { + return ErrVerification + } + em := make([]byte, emLen) + copyWithLeftPad(em, m.Bytes()) + if saltLen == PSSSaltLengthEqualsHash { + saltLen = hash.Size() + } + return emsaPSSVerify(hashed, em, emBits, saltLen, hash.New()) +} diff --git a/vendor/github.com/keybase/go-crypto/rsa/rsa.go b/vendor/github.com/keybase/go-crypto/rsa/rsa.go new file mode 100644 index 00000000..ff6b11b3 --- /dev/null +++ b/vendor/github.com/keybase/go-crypto/rsa/rsa.go @@ -0,0 +1,646 @@ +// Copyright 2009 The Go Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +// Package rsa implements RSA encryption as specified in PKCS#1. +// +// RSA is a single, fundamental operation that is used in this package to +// implement either public-key encryption or public-key signatures. +// +// The original specification for encryption and signatures with RSA is PKCS#1 +// and the terms "RSA encryption" and "RSA signatures" by default refer to +// PKCS#1 version 1.5. However, that specification has flaws and new designs +// should use version two, usually called by just OAEP and PSS, where +// possible. +// +// Two sets of interfaces are included in this package. When a more abstract +// interface isn't neccessary, there are functions for encrypting/decrypting +// with v1.5/OAEP and signing/verifying with v1.5/PSS. If one needs to abstract +// over the public-key primitive, the PrivateKey struct implements the +// Decrypter and Signer interfaces from the crypto package. +package rsa + +import ( + "crypto" + "crypto/rand" + "crypto/subtle" + "errors" + "hash" + "io" + "math/big" +) + +var bigZero = big.NewInt(0) +var bigOne = big.NewInt(1) + +// A PublicKey represents the public part of an RSA key. +type PublicKey struct { + N *big.Int // modulus + E int64 // public exponent +} + +// OAEPOptions is an interface for passing options to OAEP decryption using the +// crypto.Decrypter interface. +type OAEPOptions struct { + // Hash is the hash function that will be used when generating the mask. + Hash crypto.Hash + // Label is an arbitrary byte string that must be equal to the value + // used when encrypting. + Label []byte +} + +var ( + errPublicModulus = errors.New("crypto/rsa: missing public modulus") + errPublicExponentSmall = errors.New("crypto/rsa: public exponent too small") + errPublicExponentLarge = errors.New("crypto/rsa: public exponent too large") +) + +// checkPub sanity checks the public key before we use it. +// We require pub.E to fit into a 32-bit integer so that we +// do not have different behavior depending on whether +// int is 32 or 64 bits. See also +// http://www.imperialviolet.org/2012/03/16/rsae.html. +func checkPub(pub *PublicKey) error { + if pub.N == nil { + return errPublicModulus + } + if pub.E < 2 { + return errPublicExponentSmall + } + if pub.E > 1<<63-1 { + return errPublicExponentLarge + } + return nil +} + +// A PrivateKey represents an RSA key +type PrivateKey struct { + PublicKey // public part. + D *big.Int // private exponent + Primes []*big.Int // prime factors of N, has >= 2 elements. + + // Precomputed contains precomputed values that speed up private + // operations, if available. + Precomputed PrecomputedValues +} + +// Public returns the public key corresponding to priv. +func (priv *PrivateKey) Public() crypto.PublicKey { + return &priv.PublicKey +} + +// Sign signs msg with priv, reading randomness from rand. If opts is a +// *PSSOptions then the PSS algorithm will be used, otherwise PKCS#1 v1.5 will +// be used. This method is intended to support keys where the private part is +// kept in, for example, a hardware module. Common uses should use the Sign* +// functions in this package. +func (priv *PrivateKey) Sign(rand io.Reader, msg []byte, opts crypto.SignerOpts) ([]byte, error) { + if pssOpts, ok := opts.(*PSSOptions); ok { + return SignPSS(rand, priv, pssOpts.Hash, msg, pssOpts) + } + + return SignPKCS1v15(rand, priv, opts.HashFunc(), msg) +} + +// Decrypt decrypts ciphertext with priv. If opts is nil or of type +// *PKCS1v15DecryptOptions then PKCS#1 v1.5 decryption is performed. Otherwise +// opts must have type *OAEPOptions and OAEP decryption is done. +func (priv *PrivateKey) Decrypt(rand io.Reader, ciphertext []byte, opts crypto.DecrypterOpts) (plaintext []byte, err error) { + if opts == nil { + return DecryptPKCS1v15(rand, priv, ciphertext) + } + + switch opts := opts.(type) { + case *OAEPOptions: + return DecryptOAEP(opts.Hash.New(), rand, priv, ciphertext, opts.Label) + + case *PKCS1v15DecryptOptions: + if l := opts.SessionKeyLen; l > 0 { + plaintext = make([]byte, l) + if _, err := io.ReadFull(rand, plaintext); err != nil { + return nil, err + } + if err := DecryptPKCS1v15SessionKey(rand, priv, ciphertext, plaintext); err != nil { + return nil, err + } + return plaintext, nil + } else { + return DecryptPKCS1v15(rand, priv, ciphertext) + } + + default: + return nil, errors.New("crypto/rsa: invalid options for Decrypt") + } +} + +type PrecomputedValues struct { + Dp, Dq *big.Int // D mod (P-1) (or mod Q-1) + Qinv *big.Int // Q^-1 mod P + + // CRTValues is used for the 3rd and subsequent primes. Due to a + // historical accident, the CRT for the first two primes is handled + // differently in PKCS#1 and interoperability is sufficiently + // important that we mirror this. + CRTValues []CRTValue +} + +// CRTValue contains the precomputed Chinese remainder theorem values. +type CRTValue struct { + Exp *big.Int // D mod (prime-1). + Coeff *big.Int // R·Coeff ≡ 1 mod Prime. + R *big.Int // product of primes prior to this (inc p and q). +} + +// Validate performs basic sanity checks on the key. +// It returns nil if the key is valid, or else an error describing a problem. +func (priv *PrivateKey) Validate() error { + if err := checkPub(&priv.PublicKey); err != nil { + return err + } + + // Check that Πprimes == n. + modulus := new(big.Int).Set(bigOne) + for _, prime := range priv.Primes { + // Any primes ≤ 1 will cause divide-by-zero panics later. + if prime.Cmp(bigOne) <= 0 { + return errors.New("crypto/rsa: invalid prime value") + } + modulus.Mul(modulus, prime) + } + if modulus.Cmp(priv.N) != 0 { + return errors.New("crypto/rsa: invalid modulus") + } + + // Check that de ≡ 1 mod p-1, for each prime. + // This implies that e is coprime to each p-1 as e has a multiplicative + // inverse. Therefore e is coprime to lcm(p-1,q-1,r-1,...) = + // exponent(ℤ/nℤ). It also implies that a^de ≡ a mod p as a^(p-1) ≡ 1 + // mod p. Thus a^de ≡ a mod n for all a coprime to n, as required. + congruence := new(big.Int) + de := new(big.Int).SetInt64(int64(priv.E)) + de.Mul(de, priv.D) + for _, prime := range priv.Primes { + pminus1 := new(big.Int).Sub(prime, bigOne) + congruence.Mod(de, pminus1) + if congruence.Cmp(bigOne) != 0 { + return errors.New("crypto/rsa: invalid exponents") + } + } + return nil +} + +// GenerateKey generates an RSA keypair of the given bit size using the +// random source random (for example, crypto/rand.Reader). +func GenerateKey(random io.Reader, bits int) (priv *PrivateKey, err error) { + return GenerateMultiPrimeKey(random, 2, bits) +} + +// GenerateMultiPrimeKey generates a multi-prime RSA keypair of the given bit +// size and the given random source, as suggested in [1]. Although the public +// keys are compatible (actually, indistinguishable) from the 2-prime case, +// the private keys are not. Thus it may not be possible to export multi-prime +// private keys in certain formats or to subsequently import them into other +// code. +// +// Table 1 in [2] suggests maximum numbers of primes for a given size. +// +// [1] US patent 4405829 (1972, expired) +// [2] http://www.cacr.math.uwaterloo.ca/techreports/2006/cacr2006-16.pdf +func GenerateMultiPrimeKey(random io.Reader, nprimes int, bits int) (priv *PrivateKey, err error) { + priv = new(PrivateKey) + priv.E = 65537 + + if nprimes < 2 { + return nil, errors.New("crypto/rsa: GenerateMultiPrimeKey: nprimes must be >= 2") + } + + primes := make([]*big.Int, nprimes) + +NextSetOfPrimes: + for { + todo := bits + // crypto/rand should set the top two bits in each prime. + // Thus each prime has the form + // p_i = 2^bitlen(p_i) × 0.11... (in base 2). + // And the product is: + // P = 2^todo × α + // where α is the product of nprimes numbers of the form 0.11... + // + // If α < 1/2 (which can happen for nprimes > 2), we need to + // shift todo to compensate for lost bits: the mean value of 0.11... + // is 7/8, so todo + shift - nprimes * log2(7/8) ~= bits - 1/2 + // will give good results. + if nprimes >= 7 { + todo += (nprimes - 2) / 5 + } + for i := 0; i < nprimes; i++ { + primes[i], err = rand.Prime(random, todo/(nprimes-i)) + if err != nil { + return nil, err + } + todo -= primes[i].BitLen() + } + + // Make sure that primes is pairwise unequal. + for i, prime := range primes { + for j := 0; j < i; j++ { + if prime.Cmp(primes[j]) == 0 { + continue NextSetOfPrimes + } + } + } + + n := new(big.Int).Set(bigOne) + totient := new(big.Int).Set(bigOne) + pminus1 := new(big.Int) + for _, prime := range primes { + n.Mul(n, prime) + pminus1.Sub(prime, bigOne) + totient.Mul(totient, pminus1) + } + if n.BitLen() != bits { + // This should never happen for nprimes == 2 because + // crypto/rand should set the top two bits in each prime. + // For nprimes > 2 we hope it does not happen often. + continue NextSetOfPrimes + } + + g := new(big.Int) + priv.D = new(big.Int) + y := new(big.Int) + e := big.NewInt(int64(priv.E)) + g.GCD(priv.D, y, e, totient) + + if g.Cmp(bigOne) == 0 { + if priv.D.Sign() < 0 { + priv.D.Add(priv.D, totient) + } + priv.Primes = primes + priv.N = n + + break + } + } + + priv.Precompute() + return +} + +// incCounter increments a four byte, big-endian counter. +func incCounter(c *[4]byte) { + if c[3]++; c[3] != 0 { + return + } + if c[2]++; c[2] != 0 { + return + } + if c[1]++; c[1] != 0 { + return + } + c[0]++ +} + +// mgf1XOR XORs the bytes in out with a mask generated using the MGF1 function +// specified in PKCS#1 v2.1. +func mgf1XOR(out []byte, hash hash.Hash, seed []byte) { + var counter [4]byte + var digest []byte + + done := 0 + for done < len(out) { + hash.Write(seed) + hash.Write(counter[0:4]) + digest = hash.Sum(digest[:0]) + hash.Reset() + + for i := 0; i < len(digest) && done < len(out); i++ { + out[done] ^= digest[i] + done++ + } + incCounter(&counter) + } +} + +// ErrMessageTooLong is returned when attempting to encrypt a message which is +// too large for the size of the public key. +var ErrMessageTooLong = errors.New("crypto/rsa: message too long for RSA public key size") + +func encrypt(c *big.Int, pub *PublicKey, m *big.Int) *big.Int { + e := big.NewInt(int64(pub.E)) + c.Exp(m, e, pub.N) + return c +} + +// EncryptOAEP encrypts the given message with RSA-OAEP. +// +// OAEP is parameterised by a hash function that is used as a random oracle. +// Encryption and decryption of a given message must use the same hash function +// and sha256.New() is a reasonable choice. +// +// The random parameter is used as a source of entropy to ensure that +// encrypting the same message twice doesn't result in the same ciphertext. +// +// The label parameter may contain arbitrary data that will not be encrypted, +// but which gives important context to the message. For example, if a given +// public key is used to decrypt two types of messages then distinct label +// values could be used to ensure that a ciphertext for one purpose cannot be +// used for another by an attacker. If not required it can be empty. +// +// The message must be no longer than the length of the public modulus less +// twice the hash length plus 2. +func EncryptOAEP(hash hash.Hash, random io.Reader, pub *PublicKey, msg []byte, label []byte) (out []byte, err error) { + if err := checkPub(pub); err != nil { + return nil, err + } + hash.Reset() + k := (pub.N.BitLen() + 7) / 8 + if len(msg) > k-2*hash.Size()-2 { + err = ErrMessageTooLong + return + } + + hash.Write(label) + lHash := hash.Sum(nil) + hash.Reset() + + em := make([]byte, k) + seed := em[1 : 1+hash.Size()] + db := em[1+hash.Size():] + + copy(db[0:hash.Size()], lHash) + db[len(db)-len(msg)-1] = 1 + copy(db[len(db)-len(msg):], msg) + + _, err = io.ReadFull(random, seed) + if err != nil { + return + } + + mgf1XOR(db, hash, seed) + mgf1XOR(seed, hash, db) + + m := new(big.Int) + m.SetBytes(em) + c := encrypt(new(big.Int), pub, m) + out = c.Bytes() + + if len(out) < k { + // If the output is too small, we need to left-pad with zeros. + t := make([]byte, k) + copy(t[k-len(out):], out) + out = t + } + + return +} + +// ErrDecryption represents a failure to decrypt a message. +// It is deliberately vague to avoid adaptive attacks. +var ErrDecryption = errors.New("crypto/rsa: decryption error") + +// ErrVerification represents a failure to verify a signature. +// It is deliberately vague to avoid adaptive attacks. +var ErrVerification = errors.New("crypto/rsa: verification error") + +// modInverse returns ia, the inverse of a in the multiplicative group of prime +// order n. It requires that a be a member of the group (i.e. less than n). +func modInverse(a, n *big.Int) (ia *big.Int, ok bool) { + g := new(big.Int) + x := new(big.Int) + y := new(big.Int) + g.GCD(x, y, a, n) + if g.Cmp(bigOne) != 0 { + // In this case, a and n aren't coprime and we cannot calculate + // the inverse. This happens because the values of n are nearly + // prime (being the product of two primes) rather than truly + // prime. + return + } + + if x.Cmp(bigOne) < 0 { + // 0 is not the multiplicative inverse of any element so, if x + // < 1, then x is negative. + x.Add(x, n) + } + + return x, true +} + +// Precompute performs some calculations that speed up private key operations +// in the future. +func (priv *PrivateKey) Precompute() { + if priv.Precomputed.Dp != nil { + return + } + + priv.Precomputed.Dp = new(big.Int).Sub(priv.Primes[0], bigOne) + priv.Precomputed.Dp.Mod(priv.D, priv.Precomputed.Dp) + + priv.Precomputed.Dq = new(big.Int).Sub(priv.Primes[1], bigOne) + priv.Precomputed.Dq.Mod(priv.D, priv.Precomputed.Dq) + + priv.Precomputed.Qinv = new(big.Int).ModInverse(priv.Primes[1], priv.Primes[0]) + + r := new(big.Int).Mul(priv.Primes[0], priv.Primes[1]) + priv.Precomputed.CRTValues = make([]CRTValue, len(priv.Primes)-2) + for i := 2; i < len(priv.Primes); i++ { + prime := priv.Primes[i] + values := &priv.Precomputed.CRTValues[i-2] + + values.Exp = new(big.Int).Sub(prime, bigOne) + values.Exp.Mod(priv.D, values.Exp) + + values.R = new(big.Int).Set(r) + values.Coeff = new(big.Int).ModInverse(r, prime) + + r.Mul(r, prime) + } +} + +// decrypt performs an RSA decryption, resulting in a plaintext integer. If a +// random source is given, RSA blinding is used. +func decrypt(random io.Reader, priv *PrivateKey, c *big.Int) (m *big.Int, err error) { + // TODO(agl): can we get away with reusing blinds? + if c.Cmp(priv.N) > 0 { + err = ErrDecryption + return + } + + var ir *big.Int + if random != nil { + // Blinding enabled. Blinding involves multiplying c by r^e. + // Then the decryption operation performs (m^e * r^e)^d mod n + // which equals mr mod n. The factor of r can then be removed + // by multiplying by the multiplicative inverse of r. + + var r *big.Int + + for { + r, err = rand.Int(random, priv.N) + if err != nil { + return + } + if r.Cmp(bigZero) == 0 { + r = bigOne + } + var ok bool + ir, ok = modInverse(r, priv.N) + if ok { + break + } + } + bigE := big.NewInt(int64(priv.E)) + rpowe := new(big.Int).Exp(r, bigE, priv.N) + cCopy := new(big.Int).Set(c) + cCopy.Mul(cCopy, rpowe) + cCopy.Mod(cCopy, priv.N) + c = cCopy + } + + if priv.Precomputed.Dp == nil { + m = new(big.Int).Exp(c, priv.D, priv.N) + } else { + // We have the precalculated values needed for the CRT. + m = new(big.Int).Exp(c, priv.Precomputed.Dp, priv.Primes[0]) + m2 := new(big.Int).Exp(c, priv.Precomputed.Dq, priv.Primes[1]) + m.Sub(m, m2) + if m.Sign() < 0 { + m.Add(m, priv.Primes[0]) + } + m.Mul(m, priv.Precomputed.Qinv) + m.Mod(m, priv.Primes[0]) + m.Mul(m, priv.Primes[1]) + m.Add(m, m2) + + for i, values := range priv.Precomputed.CRTValues { + prime := priv.Primes[2+i] + m2.Exp(c, values.Exp, prime) + m2.Sub(m2, m) + m2.Mul(m2, values.Coeff) + m2.Mod(m2, prime) + if m2.Sign() < 0 { + m2.Add(m2, prime) + } + m2.Mul(m2, values.R) + m.Add(m, m2) + } + } + + if ir != nil { + // Unblind. + m.Mul(m, ir) + m.Mod(m, priv.N) + } + + return +} + +func decryptAndCheck(random io.Reader, priv *PrivateKey, c *big.Int) (m *big.Int, err error) { + m, err = decrypt(random, priv, c) + if err != nil { + return nil, err + } + + // In order to defend against errors in the CRT computation, m^e is + // calculated, which should match the original ciphertext. + check := encrypt(new(big.Int), &priv.PublicKey, m) + if c.Cmp(check) != 0 { + return nil, errors.New("rsa: internal error") + } + return m, nil +} + +// DecryptOAEP decrypts ciphertext using RSA-OAEP. + +// OAEP is parameterised by a hash function that is used as a random oracle. +// Encryption and decryption of a given message must use the same hash function +// and sha256.New() is a reasonable choice. +// +// The random parameter, if not nil, is used to blind the private-key operation +// and avoid timing side-channel attacks. Blinding is purely internal to this +// function – the random data need not match that used when encrypting. +// +// The label parameter must match the value given when encrypting. See +// EncryptOAEP for details. +func DecryptOAEP(hash hash.Hash, random io.Reader, priv *PrivateKey, ciphertext []byte, label []byte) (msg []byte, err error) { + if err := checkPub(&priv.PublicKey); err != nil { + return nil, err + } + k := (priv.N.BitLen() + 7) / 8 + if len(ciphertext) > k || + k < hash.Size()*2+2 { + err = ErrDecryption + return + } + + c := new(big.Int).SetBytes(ciphertext) + + m, err := decrypt(random, priv, c) + if err != nil { + return + } + + hash.Write(label) + lHash := hash.Sum(nil) + hash.Reset() + + // Converting the plaintext number to bytes will strip any + // leading zeros so we may have to left pad. We do this unconditionally + // to avoid leaking timing information. (Although we still probably + // leak the number of leading zeros. It's not clear that we can do + // anything about this.) + em := leftPad(m.Bytes(), k) + + firstByteIsZero := subtle.ConstantTimeByteEq(em[0], 0) + + seed := em[1 : hash.Size()+1] + db := em[hash.Size()+1:] + + mgf1XOR(seed, hash, db) + mgf1XOR(db, hash, seed) + + lHash2 := db[0:hash.Size()] + + // We have to validate the plaintext in constant time in order to avoid + // attacks like: J. Manger. A Chosen Ciphertext Attack on RSA Optimal + // Asymmetric Encryption Padding (OAEP) as Standardized in PKCS #1 + // v2.0. In J. Kilian, editor, Advances in Cryptology. + lHash2Good := subtle.ConstantTimeCompare(lHash, lHash2) + + // The remainder of the plaintext must be zero or more 0x00, followed + // by 0x01, followed by the message. + // lookingForIndex: 1 iff we are still looking for the 0x01 + // index: the offset of the first 0x01 byte + // invalid: 1 iff we saw a non-zero byte before the 0x01. + var lookingForIndex, index, invalid int + lookingForIndex = 1 + rest := db[hash.Size():] + + for i := 0; i < len(rest); i++ { + equals0 := subtle.ConstantTimeByteEq(rest[i], 0) + equals1 := subtle.ConstantTimeByteEq(rest[i], 1) + index = subtle.ConstantTimeSelect(lookingForIndex&equals1, i, index) + lookingForIndex = subtle.ConstantTimeSelect(equals1, 0, lookingForIndex) + invalid = subtle.ConstantTimeSelect(lookingForIndex&^equals0, 1, invalid) + } + + if firstByteIsZero&lHash2Good&^invalid&^lookingForIndex != 1 { + err = ErrDecryption + return + } + + msg = rest[index+1:] + return +} + +// leftPad returns a new slice of length size. The contents of input are right +// aligned in the new slice. +func leftPad(input []byte, size int) (out []byte) { + n := len(input) + if n > size { + n = size + } + out = make([]byte, size) + copy(out[len(out)-n:], input) + return +} diff --git a/vendor/vendor.json b/vendor/vendor.json index 53d8262c..80f54c58 100644 --- a/vendor/vendor.json +++ b/vendor/vendor.json @@ -329,6 +329,12 @@ "revision": "5a0f697c9ed9d68fef0116532c6e05cfeae00e55", "revisionTime": "2017-06-01T23:02:30Z" }, + { + "checksumSHA1": "p/8vSviYF91gFflhrt5vkyksroo=", + "path": "github.com/golang/snappy", + "revision": "553a641470496b2327abcac10b36396bd98e45c9", + "revisionTime": "2017-02-15T23:32:05Z" + }, { "checksumSHA1": "ovDzecwDMswgStyaKHg0VosC3FU=", "path": "github.com/googleapis/gax-go", @@ -512,6 +518,14 @@ "version": "v0.10.0", "versionExact": "v0.10.0" }, + { + "checksumSHA1": "FH5eOEHfHgdxPC/JnfmCeSBk66U=", + "path": "github.com/hashicorp/terraform/helper/encryption", + "revision": "v0.10.0", + "revisionTime": "2017-08-02T18:39:14Z", + "version": "v0.10.0", + "versionExact": "v0.10.0" + }, { "checksumSHA1": "Vbo55GDzPgG/L/+W2pcvDhxrPZc=", "path": "github.com/hashicorp/terraform/helper/experiment", @@ -630,6 +644,26 @@ "version": "v0.10.0", "versionExact": "v0.10.0" }, + { + "checksumSHA1": "au+CDkddC4sVFV15UaPiI7FvSw0=", + "path": "github.com/hashicorp/vault/helper/compressutil", + "revision": "6faf8365e922c4cf1bde05b6b886a17881b9ebca", + "revisionTime": "2017-09-25T18:41:46Z" + }, + { + "checksumSHA1": "yUiSTPf0QUuL2r/81sjuytqBoeQ=", + "path": "github.com/hashicorp/vault/helper/jsonutil", + "revision": "6faf8365e922c4cf1bde05b6b886a17881b9ebca", + "revisionTime": "2017-09-25T18:41:46Z" + }, + { + "checksumSHA1": "YmXAnTwbzhLLBZM+1tQrJiG3qpc=", + "path": "github.com/hashicorp/vault/helper/pgpkeys", + "revision": "6b29fb2b7f70ed538ee2b3c057335d706b6d4e36", + "revisionTime": "2017-09-19T14:56:10Z", + "version": "=v0.8.3", + "versionExact": "v0.8.3" + }, { "checksumSHA1": "ZhK6IO2XN81Y+3RAjTcVm1Ic7oU=", "path": "github.com/hashicorp/yamux", @@ -643,6 +677,84 @@ "revision": "bd40a432e4c76585ef6b72d3fd96fb9b6dc7b68d", "revisionTime": "2016-08-03T19:07:31Z" }, + { + "checksumSHA1": "VJk3rOWfxEV9Ilig5lgzH1qg8Ss=", + "path": "github.com/keybase/go-crypto/brainpool", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, + { + "checksumSHA1": "rnRjEJs5luF+DIXp2J6LFcQk8Gg=", + "path": "github.com/keybase/go-crypto/cast5", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, + { + "checksumSHA1": "F5++ZQS5Vt7hd6lxPCKTffvph1A=", + "path": "github.com/keybase/go-crypto/curve25519", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, + { + "checksumSHA1": "IvrDXwIixB5yPPbo6tq1/1cSn78=", + "path": "github.com/keybase/go-crypto/ed25519", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, + { + "checksumSHA1": "4+fslB6pCbplNq4viy6CrOkkY6Y=", + "path": "github.com/keybase/go-crypto/ed25519/internal/edwards25519", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, + { + "checksumSHA1": "fgFlkfkaotUjBVhJik2979oCeJw=", + "path": "github.com/keybase/go-crypto/openpgp", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, + { + "checksumSHA1": "+spfcEChljh3yeIg4K/xHOQ2pVM=", + "path": "github.com/keybase/go-crypto/openpgp/armor", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, + { + "checksumSHA1": "nWhmwjBJqPSvkCWqaap2Z9EiS1k=", + "path": "github.com/keybase/go-crypto/openpgp/ecdh", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, + { + "checksumSHA1": "uxXG9IC/XF8jwwvZUbW65+x8/+M=", + "path": "github.com/keybase/go-crypto/openpgp/elgamal", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, + { + "checksumSHA1": "EyUf82Yknzc75m8RcA21CNQINw0=", + "path": "github.com/keybase/go-crypto/openpgp/errors", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, + { + "checksumSHA1": "tw0BkvixAuw9Ai80hHzFy6W5mnk=", + "path": "github.com/keybase/go-crypto/openpgp/packet", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, + { + "checksumSHA1": "BGDxg1Xtsz0DSPzdQGJLLQqfYc8=", + "path": "github.com/keybase/go-crypto/openpgp/s2k", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, + { + "checksumSHA1": "rE3pp7b3gfcmBregzpIvN5IdFhY=", + "path": "github.com/keybase/go-crypto/rsa", + "revision": "433e2f3d43ef1bd31387582a899389b2fbe2005e", + "revisionTime": "2017-06-28T15:29:38Z" + }, { "checksumSHA1": "guxbLo8KHHBeM0rzou4OTzzpDNs=", "path": "github.com/mitchellh/copystructure", diff --git a/website/docs/r/google_service_account_key.html.markdown b/website/docs/r/google_service_account_key.html.markdown new file mode 100644 index 00000000..3e94d3da --- /dev/null +++ b/website/docs/r/google_service_account_key.html.markdown @@ -0,0 +1,85 @@ +--- +layout: "google" +page_title: "Google: google_service_account_key" +sidebar_current: "docs-google-service-account-key" +description: |- + Allows management of a Google Cloud Platform service account Key Pair +--- + +# google\_service\_account\_key + +Creates and manages service account key-pairs, which allow the user to establish identity of a service account outside of GCP. For more information, see [the official documentation](https://cloud.google.com/iam/docs/creating-managing-service-account-keys) and [API](https://cloud.google.com/iam/reference/rest/v1/projects.serviceAccounts.keys). + + +## Example Usage, creating a new Key Pair + +```hcl +resource "google_service_account" "acceptance" { + account_id = "%v" + display_name = "%v" +} + +resource "google_service_account_key" "acceptance" { + service_account_id = "${google_service_account.acceptance.id}" + public_key_type = "TYPE_X509_PEM_FILE" +} +``` + +## Create new Key Pair, encrypting the private key with a PGP Key + +```hcl +resource "google_service_account" "acceptance" { + account_id = "%v" + display_name = "%v" +} + +resource "google_service_account_key" "acceptance" { + service_account_id = "${google_service_account.acceptance.id}" + pgp_key = "keybase:keybaseusername" + public_key_type = "TYPE_X509_PEM_FILE" +} +``` + +## Argument Reference + +The following arguments are supported: + +* `service_account_id` - (Required) The Service account id of the Key Pair. + +* `key_algorithm` - (Optional) The output format of the private key. GOOGLE_CREDENTIALS_FILE is the default output format. Valid values are listed at [ServiceAccountPrivateKeyType](https://cloud.google.com/iam/reference/rest/v1/projects.serviceAccounts.keys#ServiceAccountPrivateKeyType) (only used on create) + +* `public_key_type` (Optional) The output format of the public key requested. X509_PEM is the default output format. + +* `private_key_type` (Optional) The output format of the private key. GOOGLE_CREDENTIALS_FILE is the default output format. + +* `pgp_key` – (Optional) An optional PGP key to encrypt the resulting private +key material. Only used when creating or importing a new key pair + +~> **NOTE:** a PGP key is not required, however it is strongly encouraged. +Without a PGP key, the private key material will be stored in state unencrypted. + +## Attributes Reference + +The following attributes are exported in addition to the arguments listed above: + +* `name` - The name used for this key pair + +* `fingerprint` - The MD5 public key fingerprint as specified in section 4 of RFC 4716. + +* `public_key` - The public key, base64 encoded + +* `private_key` - The private key, base64 encoded. This is only populated +when creating a new key, and when no `pgp_key` is provided + +* `private_key_encrypted` – The private key material, base 64 encoded and +encrypted with the given `pgp_key`. This is only populated when creating a new +key and `pgp_key` is supplied + +* `private_key_fingerprint` - The MD5 public key fingerprint for the encrypted +private key + +* `valid_after` - The key can be used after this timestamp. A timestamp in RFC3339 UTC "Zulu" format, accurate to nanoseconds. Example: "2014-10-02T15:01:23.045123456Z". + +* `valid_before` - The key can be used before this timestamp. +A timestamp in RFC3339 UTC "Zulu" format, accurate to nanoseconds. Example: "2014-10-02T15:01:23.045123456Z". + diff --git a/website/google.erb b/website/google.erb index 79bb2e1f..3377193e 100644 --- a/website/google.erb +++ b/website/google.erb @@ -98,6 +98,10 @@ > google_service_account + > + google_service_account_key + +